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+
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+Project Gutenberg (https://www.gutenberg.org) public repository for
+eBook #52825 (https://www.gutenberg.org/ebooks/52825)
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-The Project Gutenberg EBook of Petroleum, by Albert Lidgett
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
-whatsoever.  You may copy it, give it away or re-use it under the terms of
-the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org.  If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-Title: Petroleum
-
-Author: Albert Lidgett
-
-Release Date: August 16, 2016 [EBook #52825]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK PETROLEUM ***
-
-
-
-
-Produced by deaurider, Wayne Hammond and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
-
-
-
-
-
-[Transcriber's Note:
-
-Bold text delimited by equal signs, italics by underscores.]
-
-
-
-
-  The Wallsend Slipway & Engineering
-
-  WALLSEND-ON-TYNE      Company, Ltd.
-
-  MARINE ENGINE & BOILER BUILDERS & SHIP REPAIRERS
-
-
-  _Manufacturers of Installations for_
-
-  BURNING LIQUID FUEL
-
-
-[Illustration: Installation mounted on a Tray]
-
-
-=Horse Power= of Boilers for which Installations have been supplied by
-the Company exceeds =3,000,000 h.p.=
-
-
-  Head Office and Works--     WALLSEND-ON-TYNE
-  Telegraphic Address--       “WALL,” NEWCASTLE-ON-TYNE
-  London Office--             30 GREAT ST. HELENS. E C. 3
-
-
-
-
-[Illustration]
-
-ANGLO-MEXICAN PETROLEUM CO., LTD.
-
-    Exporters and marketers of the products of the Mexican Eagle
-    Oil Co., Ltd., including Mexican Fuel Oil and Diesel Oil,
-    Mexphalte, Fluxphalte, Mexican Eagle Bitumen, Lubricants, Gas
-    Oil, Kerosene and Motor Spirit.
-
-EAGLE OIL TRANSPORT COMPANY, LIMITED.
-
-    Owners of the fleet of modern Oil Tank Steamers engaged in the
-    transport of the above products.
-
-BOWRING PETROLEUM COMPANY, LIMITED.
-
-    Marketing Agents in the United Kingdom for Mex Motor Spirit and
-    Kerosene, etc.
-
-  _Head Offices_:
-  16. FINSBURY CIRCUS.
-  --LONDON. E.C. 2--
-
-  _Telephone:
-  LONDON WALL 1200 (Twenty Lines)_
-
-
-
-
-[Illustration: Oil Well Supply Co]
-
-_Oil and “OILWELL” have grown up together. The oldest and largest
-manufacturers of well drilling tools._
-
-
-DRILLING PLANT of every description
-
-PUMPING OUTFITS for every service
-
-PIPE-LINES and STORAGE TANKS
-
-[Illustration]
-
-TRADE “OILWELL” MARK
-
-Dashwood House, LONDON, E.C. 2
-
-
-
-
-ANGLO-AMERICAN OIL COMPANY LIMITED
-
-
-_Importers, Refiners and Distributors_
-
-
-=_REFINED PETROLEUM OILS_=
-
-    WHITE ROSE (Water White), ROYAL DAYLIGHT and
-
-    CROWN DIAMOND--for Household use.
-
-    ANGLO’S VAPORISING OIL--for Oil Engines, Agricultural Tractors,
-    etc.
-
-
-=_MOTOR SPIRIT_=
-
-    PRATT’S AVIATION--Refined to super-excellence for Aeroplanes
-    and Motor Cars.
-
-    PRATT’S PERFECTION--for all classes of Motor Cars.
-
-    TAXIBUS--for Commercial Vehicles.
-
-    ANGLO’S BENZOL--for Motor Cars and Commercial Vehicles.
-
-    ANGLO’S VICTORY SPIRIT--a perfect Petrol-Benzol blend.
-
-FUEL OIL--for Diesel Engines, Furnaces, Ships’ Bunkers, etc.
-
-GAS OIL--for Gas-making.
-
-LUBRICATING OILS AND GREASES, PARAFFIN WAX AND SCALE.
-
-NUJOL--Finest Medicinal Oil.
-
-
-HEAD OFFICE:
-
-36 QUEEN ANNE’S GATE, WESTMINSTER, S.W.1
-
-_Branches and Depots throughout the United Kingdom._
-
-
-
-
-_The Largest Makers of_
-
-OIL STORAGE TANKS
-
-_Tanks of Any Size Supplied and Erected Anywhere._
-
-
-[Illustration: _WHESSOE FOUNDRY CO., LTD.,_
-
-DARLINGTON, ENGLAND
-
-Established 1790]
-
-
-PETROLEUM REFINERY PLANTS
-
-
-Telegrams--
-
-    “WHESSOE, LONDON.” “WHESSOE, DARLINGTON.”
-
-London Office:--
-
-    106 CANNON STREET, E.C.4
-
-[Illustration: ENGLAND’S FIRST OIL WELL IN DERBYSHIRE
-
-(Drilled under Government authority and brought into production in
-June, 1919)
-
-  _Frontispiece_]
-
-
-
-
-  PITMAN’S COMMON COMMODITIES
-  AND INDUSTRIES
-
-
-  PETROLEUM
-
-  BY
-
-  ALBERT LIDGETT
-
-  EDITOR OF THE “PETROLEUM TIMES”
-  LATE EDITOR OF THE “PETROLEUM REVIEW”
-
-
-  LONDON
-
-  SIR ISAAC PITMAN & SONS, LTD., 1 AMEN CORNER, E.C.4
-  BATH, MELBOURNE AND NEW YORK
-
-
-
-
-  PRINTED BY SIR ISAAC PITMAN
-  & SONS, LTD., LONDON, BATH,
-  MELBOURNE AND NEW YORK
-
-
-
-
-PREFACE
-
-
-Although numerous volumes have been written upon petroleum, and some
-very educational works on this important subject are to be found in
-technological literature, it is strange that prior to the appearance
-of this little book, it has been impossible to turn to any publication
-which deals with this Common Commodity of Commerce in a popular manner.
-
-Of a truth, we to-day live in an age of Oil, for the products of
-petroleum are inseparable from our daily life. Refined petroleum
-breathes the breath of power to the internal combustion engine which
-claims a realm of its own on land and sea, in the air, and under ocean
-waters; it also gives artificial light to countless millions in all
-corners of the world under a variety of circumstances and dissimilar
-conditions, while the wheels of industry unceasingly revolve consequent
-upon oil lubrication.
-
-And in no sphere of commercial and industrial activity has greater
-progress been made during the past few decades than in regard to the
-multiplication in the uses of the products of petroleum. The avenues
-for advantageous consumption are constantly increasing, and this to
-such an extent that the production of crude petroleum--enormous though
-this is--has been outstripped by the demands for the refined product.
-
-In the following pages I have striven to deal with the chief phases of
-the petroleum industry in a manner which, I have reason to believe,
-will be acceptable to the general reader, and the fact that the volume
-is written in language free from technicalities, will, I trust, render
-it particularly interesting to those who would know something of that
-immense class of commercial products covered by the name “Petroleum.”
-
-  ALBERT LIDGETT.
-
-  ROYAL AUTOMOBILE CLUB,
-  PALL MALL,
-  LONDON, S.W.1.
-
-
-
-
-CONTENTS
-
-
-  CHAP.                                       PAGE
-
-  PREFACE                                      iii
-  I. PETROLEUM AND ITS ORIGIN                    1
-  II. THE OIL-FIELDS OF THE WORLD                6
-  III. HOW PETROLEUM IS PRODUCED                41
-  IV. THE REFINING OF PETROLEUM                 51
-  V. TRANSPORT BY LAND AND SEA                  63
-  VI. PETROLEUM AS FUEL                         76
-  VII. PETROLEUM AS A LIGHTING AGENT            89
-  VIII. INTERNAL COMBUSTION ENGINES             95
-  IX. PETROLEUM IN ENGLAND                     104
-  X. PETROLEUM IN THE BRITISH EMPIRE           114
-  XI. PETROLEUM’S PART IN THE GREAT WAR        123
-  XII. THE SCOTTISH SHALE-OIL INDUSTRY         132
-  XIII. A FEW NOTABLE PETROLEUM ENTERPRISES    148
-  XIV. STATISTICAL                             158
-  INDEX                                        165
-
-
-
-
-[Illustration:
-
-    Taken from an actual photo of a trip spear with mechanic
-    alongside for comparison of size. This is for 21 inch O.D.
-    drive pipe. We have facilities for producing the heaviest tools
-    required.]
-
-
-The OIL WELL ENGINEERING CO., LTD.
-
-_Works_:
-
-CHEADLE HEATH, STOCKPORT
-
-The largest Manufacturers of Oil Well Drilling Plant and oil Well
-Supplies in the British Empire
-
-
-
-
-LIST OF ILLUSTRATIONS
-
-
-                                                        PAGE
-
-  ENGLAND’S FIRST OIL WELL                    _Frontispiece_
-  THE GLEN POOL                                           11
-  GEOLOGICAL SECTION SHOWING OIL SANDS                    13
-  A GUSHER UNDER CONTROL                                  15
-  DERRICK OF AN AMERICAN OIL WELL                         17
-  ROUMANIAN HAND-DUG WELLS                                27
-  BUSTENARI--THE ROUMANIAN OIL REGION                     31
-  EARLY BURMESE OIL PRODUCTION METHODS                    34
-  EARLY JAPANESE DRILLING METHOD                          35
-  VIEW IN THE GALICIAN FIELDS                             37
-  “OILWELL” HEAVY ROTARY OUTFIT                           47
-  PRIMITIVE METHOD OF TRANSPORT                           65
-  OIL PIPE-LINE CONNECTIONS                               67
-  A MAMMOTH TANKER                                        73
-  TAKING OIL FUEL ABOARD                                  81
-  LIQUID FUEL BURNERS                                     83
-  OIL FUEL FOR MARINE PURPOSES                            85
-  THE “SCARAB” OIL BURNER                                 87
-  AN OIL COOKER                                           93
-  VICKERS’ NEW ENGINE (FRONT VIEW)                        99
-  VICKERS’ NEW ENGINE (REAR VIEW)                         99
-  HIGH DUTY ENGINE FOR LIGHT CRAFT                       101
-  LOW DUTY MARINE ENGINE                                 101
-  THE PUMPHERSTON OIL SHALE WORKS                        138
-  SOME BURMAH PRODUCERS                                  154
-
-
-
-
-THE
-
-PETROLEUM TIMES
-
-  PUBLISHED WEEKLY       PRICE 6d.
-
-
-The International
-
-Petroleum Journal
-
-
-“The Petroleum Times” is Edited by ALBERT LIDGETT and is the most
-influential and widely circulated petroleum journal printed in the
-United Kingdom.
-
-_The fact that you are reading this advertisement suggests that it has
-some interest to you. Then write for a specimen copy which will gladly
-be sent._
-
-
-_Editorial and Publishing Offices_:
-
-BROAD STREET PLACE,
-
-LONDON, E.C.2
-
-
-
-
-PETROLEUM
-
-
-
-
-CHAPTER I
-
-PETROLEUM AND ITS ORIGIN
-
-
-In dealing with the question of petroleum and its origin, the subject
-can well be defined under two headings: one, the origin of the word
-“petroleum”; the other, the origin of the mineral itself. As to the
-former, this is a matter of historical interest; of the latter, the
-question is still in doubt--and the doubt becomes even the more
-doubtful, the more the question is debated.
-
-Let us, therefore, take first the word “petroleum” as we know it
-to-day. It covers a multitude of products derived from the refining of
-crude oil, though the word does not suggest any of them. It is quite
-a generic term, and in a general way represents the whole of that
-ever-increasing family of hydrocarbons--the refined products of crude
-oil. There is no doubt that it derives its name from the Latin _petra
-oleum_, which, literally, is rock oil, and equivalents of the name are
-found in all languages. Even in modern practice we use the word, though
-not in a specific sense, while our own Government usually refers to
-“petroleum oil,” which, of course, involves tautology. Crude petroleum
-is known throughout the oil-fields of the world as denoting the crude
-oil coming from the wells: then we have petroleum spirit, otherwise the
-lightest form of refined oil; we have petroleum distillate, designating
-an illuminating oil; but, “petroleum oil” is, it is to be regretted,
-generally used as suggesting some form of petroleum product.
-
-Though the petroleum industry--in its commercial sense--only goes back
-some sixty years, the use of petroleum can be traced to Biblical times,
-for was it not the great Prophet Elisha who told the widow to “Go, sell
-the oil and pay thy debts and live”?
-
-Job also speaks of the rock which poured him out rivers of oil; in
-Maccabees we find that the priests hid the fire which they took from
-the altar in a deep pit without water; while Nehemiah called the liquid
-which burst into flame and kindled a great fire by the name “Nephthar,
-which is as much as to say, a cleansing; but many call it Nephai.” And
-so, in many parts of the Old as well as in the New Testament, oil is
-clearly referred to, and, in Biblical times, as much later, was looked
-upon as a sacred fire.
-
-Many ancient authors make extensive reference to oil, prominent among
-them being Herodotus, who described the methods adopted at the pits of
-Kirab for the raising of the oil, which liquid “gives off a very strong
-odour.”
-
-Petroleum, as known in Biblical times, and as so widely known to-day,
-occurs in greater or less quantity throughout the world, and it is
-found in the whole range of strata of the earth’s crust, from the
-Laurentian rocks to the most recent members of the Quaternary period,
-though it is found in commercial quantities almost wholly in the
-comparatively old Devonian and Carboniferous formations on the one hand
-or in the various divisions of the comparatively young Tertiary rocks
-on the other.
-
-The problem of the origin of petroleum has been the subject of
-considerable scientific controversy for many years. Not a few of the
-leading scientists hold to the theory that petroleum is derived from
-metallic carbides lying far beneath the porous strata in which the oil
-is stored by Nature, and that even at the present time the process is
-in operation. This idea, which may be termed the inorganic theory of
-petroleum origin, was considered to have received substantial support
-when it was found that the action of water on the carbides of certain
-metals resulted in the liberation of hydrocarbons.
-
-The view that petroleum is of organic origin is to-day almost
-universally accepted, although there is no general agreement either
-as to whether petroleum is derived from vegetable or animal matter,
-or as to the forms of life that provided for its genesis. In certain
-places in the world--notably on the eastern side of the Caspian Sea
-and also near the Mediterranean--there is some conversion of organic
-matter into petroleum actually to be seen to-day. It is not difficult,
-as the late Sir Boverton Redwood, Bart., pointed out in an address
-before the Royal Institution of Great Britain in 1918, to account for
-the formation of adequate deposits of the necessary material. In the
-comparatively deep and quiescent water along the margin of the land in
-past ages, there would be abundant opportunity for the deposition not
-only of the remains of marine animals and plants, but also of vegetable
-matter brought down to the coast by the water courses, and the changes
-which the earth has undergone would result in the burial of these
-substances under sedimentary mineral matter, the deposits thus formed
-being ultimately, as the result of further alterations in the earth’s
-surface, frequently found occupying positions far removed from the sea,
-and sometimes beneath immense thicknesses of subsequent deposits.
-
-That vegetable matter may be the source of certain petroleums is an
-opinion that has found increasing evidence to support it. There are two
-kinds of vegetable matter which are possible, terrestrial and aquatic,
-and in the deltaic conditions that characterize so many oil-fields,
-either could be equally well appealed to as a source of accumulation.
-The extensive coal and lignite deposits in many geological periods
-bear eloquent testimony to the presence of carbonaceous matter far
-in excess of that required to provide proved supplies of petroleum.
-Every important coal-field demonstrates the fact that vegetable matter
-can be partially converted into bituminous compounds or hydrocarbons
-by natural processes. Marsh gases often occur in great quantities in
-faulted zones in the coal measures, though the bituminous substances
-found in coal are not true bitumens that dissolve in the usual
-solvents, while the tars derived from the destructive distillation of
-coal in no way resemble natural petroleums or the products of oil-shale
-distillation.
-
-In spite, however, of the outstanding differences between petroleum,
-oil-shales and coal, I might here point out in favour of the vegetable
-theory of origin, that actual petroleum and true bitumens have been
-found in some coals, though in small quantities, while solid paraffins
-have been extracted by means of pyridine and chloroform. Again, low
-temperature distillations have yielded petroleum hydrocarbons, all
-of which appear to indicate that even when coal was the overwhelming
-product, at certain times and places the conditions were merging into
-those which could yield petroleum. There is no doubt that each of the
-various views expressed as to the organic origin of petroleum contains
-elements of truth, and it is reasonable to assume that a substance so
-varied in its physical and chemical properties as petroleum has not in
-all cases been created under precisely the same conditions, or from an
-exactly similar source.
-
-Summing up the whole question of origin, however, the balance of
-opinion points to its being the result of organic action, and that the
-petroleum which we now find in the Palaeozoic and Tertiary rocks is
-substantially of the same geological age as the rocks themselves.
-
-Volumes of technological literature have been written upon this complex
-question of petroleum origin, and though these may be of intense
-interest to the student of geology, the brief references which I have
-already given to the question are sufficient for the purpose of this
-little publication.
-
-The geographical distribution of petroleum throughout the two
-hemispheres is no less wide than the geological. The deposits mainly
-occur along well-defined lines, often associated with the mountain
-ranges. This is chiefly due to the formation, in the elevatory process,
-of minor folds which have arrested and collected the oil in richly
-productive belts.
-
-
-
-
-CHAPTER II
-
-THE OIL-FIELDS OF THE WORLD
-
-
-Ever since petroleum and its products entered the realm of commercial
-commodities, there has been a ceaseless search throughout the two
-hemispheres for crude oil, and to-day there are comparatively few
-countries in the world where the presence of petroleum has not been
-proved. The ever-expanding uses of petroleum, which in their train
-have called for a continually increasing demand for crude oil, have
-given an impetus to the search for commercially productive oil-fields,
-which, in mining history, has no parallel. On the one hand, we have
-those important oil-producing regions which embrace enormous regions of
-the United States, Mexico, Russia, Roumania, the Dutch Indies, India,
-and Galicia; on the other, we find comparatively recent enterprise
-which is bringing into prominence the newer oil-producing regions of
-Egypt, Trinidad, Canada, the Argentine, Algeria, and various parts
-of Australia and Japan, though in several of these latter mentioned
-countries, the production of petroleum has been carried on by private
-means for not only many years, but even for centuries.
-
-It naturally follows that, with the constant withdrawal of large
-supplies of crude oil from Mother Earth, Nature’s stores must be
-growing less, and it is not surprising, therefore, to hear, with
-persistent regularity, alarming rumours of the coming dearth of crude
-oil. Experts have devoted considerable time and thought in an endeavour
-to arrive at a conclusion as to the length of time it will take for the
-withdrawal of practically the whole of the crude oil from the known
-deposits in the more developed fields: their conclusions, however, are
-widely different, for while some assert that in the United States, for
-instance, the known fields will cease to be commercially productive
-within forty years, others there are who declare that centuries must
-elapse before the question of a failing supply need call for serious
-consideration.
-
-But there is one point which must not be overlooked in this connection,
-and that is the fact that, while thus far very few thoroughly developed
-oil-fields have shown signs of permanent decay, there are numerous
-others which, while having already furnished conclusive proof of their
-productivity, have, for the most part, been but slightly developed.
-Each passing year registers the incoming of fresh oil-producing areas,
-while numerous regions in practically every part of the world, giving
-much promise of the success of ultimate oil developments, are as yet
-virgin territory.
-
-The cry of possible shortage of supply was, fortunately, made at the
-opportune moment: it was a word of warning, and was taken to heart
-especially by those associated with the development of the older
-producing oil-fields. In these fields--whether we look to America or
-Russia--there has always been considerable waste of crude oil, mostly
-in regard to furnishing power for oil-field operations, while the
-natural gases which exude from the wells themselves, and to which
-reference is made in another chapter, have, in times past, been
-allowed to pass uncontrolled into the atmosphere. To-day, however,
-we see conservation in every direction--thanks to the application
-of scientific and engineering knowledge, combined with the exercise
-of care--and there is no doubt that this new factor will tend in a
-greater degree than may at first be imagined toward the preservation of
-Nature’s stores of crude oil for unlimited time.
-
-With these few general remarks, let us proceed to briefly survey the
-principal oil-fields of the world, leaving those which are in the
-process of development or exploitation to later consideration.
-
-THE UNITED STATES.--In no other country has such continuous progress
-been recorded in connection with the production of petroleum as in
-the case of the United States. Quite recently, the U.S. Geological
-Survey estimated that there are no less than 9,000 square miles of
-oil-bearing territory in the States, yet the petroleum industry was
-not commercially established until the early sixties of the last
-century. It was in Pennsylvania that the industry had its birth,
-and the troubles which beset Drake, the pioneer, have filled many
-pages of early oil literature. His first well, which produced quite
-a modest yield of crude oil, was at Titusville, Pa., which spot soon
-became a thriving town. And as Pennsylvania was the scene of the early
-successes, it also became the pivot round which the petroleum industry
-of the States prospered for many years. Until 1885, the Pennsylvanian
-fields furnished over 98 per cent. of the production of crude oil: then
-a gradual decline set in, until, at the present time, Pennsylvanian
-regions do not produce 10 per cent. of the oil output of the United
-States. No sooner had the petroleum industry been firmly established in
-Pennsylvania than an active search was made for the precious fluid in
-various parts of the States, and one by one new oil regions were opened
-up, but it is interesting to recall the fact that, even in the first
-developed oil-producing region, no district has been entirely abandoned
-as exhausted of oil, for to-day wells are being pumped quite close to
-Drake’s first well and the scene of the birth of the American petroleum
-industry. In the zenith of its prosperity, the Pennsylvanian field
-produced nearly 5,000,000 tons of crude oil per annum, but to-day the
-output has fallen off nearly 40 per cent.
-
-When it is mentioned that the output of crude petroleum from the
-various fields of the United States last year was over 40,000,000 tons,
-the magnitude of America’s oil industry will at once be apparent.
-The regions known as the Mid-Continent fields--and which embrace the
-extensive oil-producing regions of Kansas and Oklahoma--are responsible
-for a very large portion of this output. Each field has its various
-“pools,” the most famous of this part, perhaps, being the Cushing pool,
-which came into prominence but a few years ago. Toward the end of 1914,
-it was estimated that the daily output of Cushing was 35,000 tons of
-crude oil. Cushing, like all other prolific oil districts, has many
-interesting stories associated with its rapid rise as an oil-producing
-centre, and there are instances on record where, in the course of a few
-days, land values have increased tenfold.
-
-The rise of the Californian fields, too, is an example of the rapidity
-with which oil regions can be developed. California’s output in 1919
-was, roughly, 120,000,000 barrels of crude oil, or over 14,000,000
-tons. It possesses nearly 900 square miles of oil-lands, and though at
-one time a great difficulty was experienced in disposing of the crude
-oil production, since it was of a somewhat low grade, the position has
-now been reversed, and the consumption of petroleum products is greater
-than the supply. With the improvement of the methods of drilling, and
-the debut of the rotary system, it has been possible not only to drill
-to much greater depths, but to considerably reduce the time requisite
-for drilling a well to the oil sands. Californian records for quick
-drilling with the rotary machine show that wells have been got down
-to the producing sands, in some fields nearly 4,000 feet below the
-surface, within one month. This deep drilling policy, which is now
-much in vogue among Californian oil operators, has proved the existence
-at the greater depth of larger volume of oil of far better quality
-than that met with in the shallow strata, and it is to the discovery
-and consequent development of the deeper oil horizons that much of
-California’s recent advance is due.
-
-Though but of small significance, the oil-wells in Summerland, Cal.,
-call for mention for the reason that these are drilled in the sea at
-quite a distance from the coast. The encroachment of sea-water to the
-wells themselves is prevented by the continuance of the tubes in the
-wells to a height above the level of high-water mark, the produced oil
-being piped to the mainland.
-
-There is no doubt that a wonderful future awaits California in regard
-to its oil export trade. The Far East is largely drawing upon the
-State for crude oil for treatment in the Far Eastern refineries: the
-oil-burning vessels of the Pacific rely upon Californian fuel oil
-for their supplies, while the opening of the Panama Canal, and the
-establishment of oil storage depots there, has brought California
-within easy transport distance of the European markets. During the past
-few years several cargoes of Californian refined oil have, in fact,
-come upon the English market.
-
-The oil-fields of Texas have, perhaps, witnessed more “boom” periods
-than any other oil regions of the States. The Gulf coastal fields which
-embrace Texas and Louisiana, came into prominence some seventeen years
-ago, and they were not long in recording an output of over 5,000,000
-tons in a single twelve months. The prolific districts of Spindle Top,
-Sour Lake, Humble, etc., attracted rapid attention, and the speculator
-in oil lands became immensely rich. But these boom periods cannot be
-said to be of much real value to the oil industry, for they are
-always followed by times of depression, when fortunes are lost almost
-as quickly as they have been made. To-day, the Gulf coast fields have
-settled down to a period of steady expansion; systematic development is
-taking place in every field, and, as in California, the policy of deep
-drilling has been eminently successful.
-
-[Illustration: THE GLEN POOL--ONE OF AMERICA’S OIL PRODUCING CENTRES]
-
-Space forbids my entering into details respecting the more recently
-developed or partially exploited fields of America, but it is safe to
-say that there is scarcely a single State that does not hold out hope
-for profitable oil development: this is evidenced by the large amounts
-of new capital which are to-day finding employment in regions which are
-only commencing their oil-field history.
-
-There is no other oil-producing country in the world where the
-petroleum industry has reached such a highly organized state as in
-the United States. Each producing field is connected by means of
-underground pipe-lines with the trunk pipe-line system, by which it
-is possible to pump oil from the most distant fields direct to the
-Atlantic seaboard. Some of the principal lines are hundreds of miles
-in length. In another chapter I deal with this wonderful system of oil
-transportation: it is, therefore, unnecessary here to more than mention
-it _en passant_. The oil-refining branch of the American petroleum
-industry is also particularly well organized and up to date, but with
-this subject, too, I deal at length elsewhere.
-
-[Illustration: A TYPICAL GEOLOGICAL SECTION SHOWING THE OIL SANDS]
-
-MEXICO.--The oil-fields of Mexico can claim to have leapt into
-prominence at a far more rapid rate than any other oil-field of
-importance in the world. Their development has been phenomenal, and
-from being practically unknown sixteen years ago, they now rank as
-the third largest producing regions, coming but next to the United
-States and Russia. My object in dealing with the Mexican fields prior
-to referring to the Russian petroleum industry is that they may be said
-to form an integral part of the fields of the New Continent, and, from
-many points of view, are linked up with the petroleum industry of the
-United States. Indeed, there are several authorities who are now urging
-that it is to Mexico that the United States Government must look if it
-is to be in a position to furnish the major portion of the petroleum
-products required for the markets of the world. Another reason for my
-dealing with Mexico at the moment is that, when development operations
-are carried a little further, and when ocean transport facilities are
-available for adequately dealing with the flood of Mexican petroleum,
-there is not the slightest doubt that Mexico will rank as the second
-largest country of petroleum production. Its annual output of crude
-oil is, approximately, 8,000,000 tons, but even this figure in no way
-represents the productivity of its prolific oil-producing regions,
-for according to the official statement of the Mexican Government the
-production in 1918 represented only 10 per cent. of that possible. The
-Mexican wells have no parallel in the world, large as have been some of
-the oil-fountains in Russia.
-
-It will be of great interest here to refer briefly to these, and though
-it would be impossible to detail all those Mexican wells which have
-ranked quite outside the limits of ordinary producers, I will touch
-only upon two of these remarkable oil gushers. They both were drilled
-on the properties owned by the well-known English firm of Pearsons, the
-operating company being the “Aguila” (Mexican Eagle) Company. It was in
-1906 when the Company commenced active drilling operations in Northern
-Vera Cruz, and though these were very successful from the start, it
-was two years later that the famous “Dos Bocas” well came in. A heavy
-gas pressure developed when the rotary drill was down just over 1,800
-feet, and in a few minutes the internal pressure manifested itself by
-bursting the wire-wrapped hose connected with the drilling apparatus.
-The oil then commenced to come to the surface in an immense stream, and
-in twenty minutes the well was beyond control. Fissures began to appear
-in the ground at considerable distance from the well, and through
-these came oil and gas. One of these fissures opened directly under
-the boilers, and though the fires had been drawn, the gas ignited. The
-position was well-nigh hopeless from the start, the well itself was
-throwing out an 8-inch column of oil hundreds of feet in the air. The
-force of the volume of oil below ground flung the heavy English drill
-pipe out of the well, and soon it became impossible to approach within
-300 feet of the “mad gusher.” The flames of fire are said to have
-reached 1,000 feet in height, and inasmuch as all ground round the well
-had fallen into the cavity caused, they were over 50 feet in diameter.
-And for 58 days did this gusher burn with all the fury imaginable, its
-glare being seen far out at sea. Anything approaching an approximate
-production of oil from this well will never be made: it can safely be
-recorded, however, that its mad flow of oil ran into many millions of
-barrels, and it is placed on record that nearly 2,000,000 tons of solid
-earth were carried away by the force of the oil from the well’s mouth,
-for a crater of nearly 120,000 square metres was formed round the well.
-
-[Illustration: A GUSHER OF THE MEXICAN EAGLE CO. UNDER CONTROL--A DOME
-BUILT OVER THE MOUTH]
-
-Toward the end of 1910 another surprise was in store for those in
-charge of drilling operations for the Company, for it was then that the
-world famous “Protero del Llano” gusher came in. This well ranks as one
-of the largest, if not the largest, ever associated with the petroleum
-industry. Its estimated daily flow was over 125,000 barrels, and within
-three months the well had produced over 8,000,000 barrels of crude oil.
-
-During November, 1919, a new field at Naranjos was developed by the
-Mexican Eagle Co., and the first three wells to come into production,
-commenced to yield over 30,000 tons daily.
-
-It says much for the enterprise of the Pearson (Lord Cowdray) interests
-that they have been able to build up such a remarkable business in
-Mexico’s oil industry in so comparatively a short space of time. The
-production of crude oil, as everyone knows, is but the first link in
-a long chain of commercial oil operations. To-day, the Mexican Eagle
-Oil Company owns considerably over 250 miles of pipe-line (mostly
-of 8-inch capacity), possess several miniature railways, and on the
-fields of production has bulk oil storage accommodation for several
-million barrels of crude oil. It has also two large refineries--one
-at Minatitlan and another at Tampico, which together are capable of
-handling over 5,000 tons (about 35,000 barrels) of crude oil daily, and
-turning the same into a complete range of high-grade products--motor
-spirit, illuminating oils, lubricants, fuel oil, paraffin wax, and an
-asphalt for road-making.
-
-An interesting equipment of this Company in Mexico is that of its
-sea-loading pipe-lines at Tuxpam. Here, the water inside the bar is
-too shallow to allow the gigantic bulk oil-carriers of the Company’s
-associated concern--the Eagle Oil Transport Company, Ltd.--to come
-alongside and load. Pipe-lines have accordingly been laid on the
-bed of the sea reaching out to a loading terminal a mile and a half
-out at sea. Here, the pipe-lines are connected with the steamers by
-means of flexible hose, and three or four tank vessels can be loaded
-simultaneously from the storage tanks on shore. In one recent twelve
-months alone over 200 oil tankers were so loaded in this way, and on
-the average, each was loaded and dispatched within 2½ days, for the
-pipe-line facilities permit of 10,000 tons of oil being pumped into the
-vessel’s tanks every 24 hours.
-
-[Illustration: INSIDE THE DERRICK OF AN AMERICAN OIL WELL]
-
-There are several large amalgamations of capital interested in the
-development of the Mexican fields--American and English, while, prior
-to the war, the Germans had anxious eyes upon this growing industry,
-and even formulated plans whereby German interests would be largely
-represented in its future.
-
-While on the subject of the Mexican fields, might I say that no other
-oil-producing regions have, in the short space of time during which
-developments have taken place, exercised such an influence upon the
-international oil situation as has Mexico. This may be traced to the
-fact that Mexican oil is an admirable liquid fuel, and as such is now
-in regular use the world over. The vast consuming centres in the South
-American Continent have seen that, whereas coal is very dear, it is
-possible to secure almost unlimited supplies of Mexican fuel oil almost
-at their own doors, while overseas, consequent upon the advent of the
-fuel oil age, Mexican fuel oil is playing a most important part, and
-to-day is in great demand for the mercantile fleet.
-
-RUSSIA.--Long before the commercial value of petroleum and its products
-was established, Baku--the present centre of the Russian petroleum
-industry--had become famous for its “Eternal Fires,” and it was to
-that place the Parsees made pilgrimages for over 1,000 years; in fact,
-centuries before the Russians occupied the Caucasus, the tribes of
-Persia eagerly sought the oils of Baku for their curative qualities.
-
-The Russian oil-fields have an output of, approximately, 10,000,000
-tons annually, or, roughly, 15 per cent. of the world’s total
-production of crude oil. Since the time when the petroleum industry
-was placed upon a commercial footing, the Russian fields have produced
-230,000,000 tons of petroleum. Enormous though this quantity is, it
-has been more than doubled by the United States.
-
-The oil-fields of Baku have gained a distinction for the reason that
-numerous individual wells have given forth a flood of crude oil which
-has, with very few exceptions, been unknown in other petroliferous
-regions. The Baku fields proper embrace the districts of Balakhany,
-Saboontchi, Romany, and Bibi Eibat: the first three districts stand on
-a plateau but a few miles from Baku, while Bibi Eibat is located quite
-near the Caspian Sea, on a bay from which the field takes its name.
-One remarkable feature of these fields--as showing their prolific oil
-content--is that the four main oil-producing districts in Baku have an
-area of less than 4,000 acres. It is in this locality that the Russian
-petroleum industry, having had its birth, became centred, and though
-it is known that there are several really promising oil areas in this
-south-western part of the Caucasus, the fact that the lands belong to
-the State has been a sufficient stumbling-block to development in the
-past.
-
-Apart from the Baku fields, the most highly developed oil-field
-of importance in Russia is that of Grosny, which is situated on
-the northern slopes of the Caucasian range and connected with the
-Vladicaucas railway by a branch line. The Grosny field, however, has
-only been developed during the past fifteen years in what may be called
-a commercial sense, but its operated area is almost double that of
-Baku. It has greatly suffered owing to the inadequacy of transport
-facilities, but in 1919 a project was drafted to build a pipe-line to
-the Black Sea.
-
-It is not a feature of this little publication that minor regions
-shall be all enumerated, and thus I may be forgiven if I refer but
-to one of the several new districts which have recently attracted
-the attention of both oil operators and speculators. I refer to the
-Maikop fields, which prominently came before the British investing
-public in 1910, and which were directly responsible for the oil boom
-of that year. A few months before, a very prolific spouter of oil had
-been struck in Maikop, which was then quite an agricultural centre,
-and enormous excitement followed. Land was quickly taken over at
-ever-increasing prices, and the boom, for which English capital was
-largely responsible, lasted for several months. There have been many
-opinions put forward by supposed experts in oil geology for and against
-the Maikop oil region, but the kindest thing of all that can be said
-for the district is that, while there was really no justification
-for the remarkable Maikop oil boom of 1910, there was certainly no
-reason why public opinion should so rapidly change in regard to its
-potentialities. I have every reason to believe that some day Maikop
-will justify the optimistic opinions held for it during the boom, but
-in the eyes of the English investor the region bears the stamp of
-fraud, for the simple reason that so many have invested their savings
-in it, and have been doomed to acute disappointment.
-
-Some millions of English money went into Maikop oil enterprises during
-that ill-fated oil boom, but a very small percentage of this went to
-really prove the contents of the lower strata. The fact that the ground
-was simply “scratched” and condemned because it did not respond with
-oil fountains, cannot in the slightest affect the ultimate career of
-the Maikop oil region, the presence of oil in which has been known
-even from ancient times. Looking back upon that Maikop oil boom, one
-cannot but express surprise at our gullibility generally: we stake our
-faith and our capital upon what at the best is a sheer gamble, and
-we seem content if we find that anything approaching 20 per cent. of
-the money subscribed actually goes into the serious development of the
-scheme which we fancied. There are a few who grow suddenly rich upon
-the spoils of such oil booms--I know some of these personally, and to
-me it has always been a source of keen regret that the State does not
-exercise something of a rigid control over these publicly invested
-funds. I cannot here refrain, while on the subject of the Maikop oil
-boom, just making a remark as to the overrated value which the public
-generally attach to the reports of many gentlemen looked upon as oil
-experts. Some remarkable stories are associated with the locking up
-(and loss) of English moneys in the Maikop boom, but the strangest
-I know is of a Russian who came to England when the boom was at its
-height, for the purpose of selling a number of Maikop oil claims.
-There were many prospective buyers, but it was necessary to possess a
-report from some supposed “oil expert.” To save time, the seller of the
-claims drafted what he considered quite an alluring statement, and the
-next day the report, couched in the same language, bore the “expert’s”
-signature. And the “wheeze” worked.
-
-But to return to the main subject. Prior to 1870, the crude petroleum
-in the Baku district, as well as in the minor fields of Russia, was
-obtained from surface pits, dug by hand, and rarely more than 50
-feet deep, and the production was carried away from the mouth of the
-shaft in leathern bottles. The general arrangements were on the most
-primitive lines, but, nevertheless, the industry--such as it was
-then--thrived. Even to-day in several fields in Russia we see the
-survival of the hand-dug wells, but they are steadily becoming a
-feature of a page of oil-field history which is almost filled.
-
-It was in 1873 that Robert Nobel went to Baku, and to his enterprise
-and technical genius a great deal of the subsequent rapid development
-of the Russian industry is due. Boring by steam power was introduced,
-and the deeper oil horizons were reached, but, owing to the depth at
-which the strata became commercially productive, it was necessary to
-commence the well with a starting diameter of 36-40 inches, so as to
-ensure the requisite depth being obtained with a workable size of
-baler--for the Baku crude oils are “baled” from the wells. Upon the
-question of baling wells, I shall have something to say in another
-chapter.
-
-Under the improved conditions which were introduced in methods of
-boring and operating the oil-wells, the industry steadily expanded,
-the general awakening of boring enterprise being best reflected in the
-number of oil-wells in operation in subsequent years. For instance,
-in 1893, the Baku fields could boast of but 458 bore-holes; in 1898,
-the number had increased to 1,107; in 1903, it was about 2,000; while
-in 1911, there were over 3,000 bore-holes in the Baku fields. There
-has been a steady decline in the number of these bore-holes since
-1914 due in some part, I assume, to the difficulties of securing the
-requisite materials for new boring, combined with the enormous increase
-in the cost of the same. The drilling of the wells in Russia is a very
-expensive item, for they cost from anything over £10,000 up to £15,000,
-and usually take a couple of years to drill. But when they are down
-to the producing strata and commence production, it can be taken for
-granted that they will continue, providing ordinary care is taken of
-the well itself, for many years to profitably produce.
-
-The Russian petroleum industry is in the hands of a large number of
-operating firms, the majority of which work quite independently of
-each other, and these independent firms are responsible for more than
-one-half of the total output. The other production of the crude oil,
-representing certainly over 40 per cent., is in the hands of combines
-representing the large and middle-class firms, prominent among which
-we get the firm of Messrs. Nobel Brothers, the “Shell” group, and the
-General Russian Corporation.
-
-The refining of the crude oil is carried out in Baku, the portion of
-the town in which this operation takes place being known as Blacktown.
-It does not belie its name either. At one time these refineries, or at
-least many of them, were erected in the centre of the town of Baku, or
-near it, and made it almost uninhabitable by their smoke, smell, and
-refuse, the latter flowing into the streets and the harbour. A special
-district was therefore selected, to which all had to remove, and it is
-this portion of the town which forms “Blacktown” to-day.
-
-One of the great difficulties of the Russian refining industry in its
-commencement was due to the fact that sulphuric acid, so absolute a
-necessity in petroleum refining, had to be brought from Europe at great
-expense, but in 1883, Messrs. Nobel built a factory for its production
-on the spot from Caucasian pyrites, mined in the neighbourhood of
-Alexandropol. Other factories for the same purpose and for the
-regeneration of the acids have since that time been established.
-
-As in other great industries, so in regard to the methods by which the
-Russian crude oil is transported and to-day handled, great strides
-forward have been made since the early days. Then the whole of the
-prevailing conditions were primitive: crude oil, for instance, was
-carried from the Baku wells to the refineries in skins and barrels
-loaded on carts or camels. Messrs. Nobel Brothers were the first to
-lay a pipe-line to their factory, but later on pipes were laid between
-the refineries and the harbour, these obvious improvements meeting
-with fierce resistance on the part of the workpeople. The transport of
-the refined products from Baku to the consumers was equally difficult.
-There was then no railway from Baku to Tiflis, and the only way to
-the Black Sea was thus effectively shut off. On the other hand, the
-navigation of the Volga was only possible during six months of the
-year, while the monopoly of water transport on the Caspian Sea imposed
-high rates on all Baku petroleum products.
-
-Improvements were again due to the enterprise of Messrs. Nobel
-Brothers, who built the first cistern waggons for transporting oil on
-the railways, instead of using the old wooden barrels, which were far
-from satisfactory. In order, too, to open an outlet on the Black Sea,
-the same firm, in 1889, constructed a pipe-line from Mikhailovo to
-Kvirili, over the Suram mountains. Now, of course, we have the great
-pipe-line running from Baku to Batoum, a distance of nearly 560 miles,
-and which is responsible for the transport of the quantities of Russian
-oil exported.
-
-But the Russian petroleum industry has always existed more or less
-under a cloud. The old regime of Government did not attempt to foster
-and encourage the industry from which it received so much yearly in
-royalties, for it must be recollected that the Russian State was the
-chief gainer by the exploitation of the Baku oil lands, owing to the
-prevalence of the system of royalties. It seemed to be content to
-leave the industry to its fate, so long as it received therefrom so
-substantial a sum in royalties, etc. Instances are on record where
-operating firms pay the Government 40 per cent., or even more, of
-their crude oil production as royalties--payment for the privilege of
-taking the oil from the ground. Such conditions have been relentlessly
-imposed, and it is not surprising to find that, operating under this
-burden of expense, numerous firms find it quite out of the question
-to earn profits for their shareholders. Several English enterprises
-come into this category, but the fault is not of their seeking; it is,
-however, to be regretted, for once an equitable system of payments
-is arranged, the Russian petroleum industry will expand in a healthy
-manner, and become a much greater source of revenue to the State than
-it is at present.
-
-But, apart from the troubles which have to be faced by the Baku oil
-producers, and which we may call Governmental, the relation between the
-employers and workpeople is far from being friendly. To-day, of course,
-it is worse than it was under the old regime of the Tzar, and then it
-was bad enough. The oil-field workman in Russia is the incarnation
-of all that is unsatisfactory. He works when he thinks he will, he
-labours under grievances, many of which are purely imaginary, and then
-he ventilates his spite upon his masters. The pages of history tell
-of many a conflict between capital and labour in the Baku oil-fields,
-with the consequent burning of all that would take fire on the fields,
-and the damaging of the producing wells by the workpeople. Instances
-are placed on record where, in a single night, dozens of productive
-oil-wells, which have taken years to bring into production, have been
-irreparably damaged by these oil-field workers. Their life, admitted,
-is nothing to write books upon, and their environments are in some
-cases of the worst description, rendered no better by the natural
-aptitude of the people themselves. But their views upon labour are of
-the most Utopian imaginable. During recent years, there has been a sort
-of combination between these operatives, whose socialistic tendencies
-run high, and less than two years ago they collectively put before the
-managers of the oil-fields the conditions under which they would in
-future work. There were nearly 100 different claims detailed, and a few
-of these are worthy of mention, as showing the appreciation of fairness
-which is instilled in the mind of the Russian oil-field worker. In the
-first place, a 50 per cent. increase in wages was desired, this to be
-retrospective. Holidays had to be paid for by the masters, and when the
-worker went on strike he had to receive his full pay from the master
-until such strike was settled. Then the workmen had to be represented
-on the board of management of the companies, their houses had to be
-improved by the masters, free railway and tramway accommodation had to
-be provided, etc. Generally, the demands put forward were distinctly
-arbitrary, though in many cases very humorous.
-
-Recent events in the conduct of affairs in Russia do not suggest that
-great improvements may be expected in the near future, either in
-regard to the attitude of the Government toward the Russian petroleum
-industry, or to the attitude of the workers to those responsible
-for oil-field operations. Even before the European War, the Russian
-petroleum industry was rather on the decline. The only hope that can
-be expressed at this juncture is that when Russia possesses a stable
-government, and the country enters upon a period of peaceful progress,
-the Mining Department will take care that Russia takes its proper
-position as one of the most important oil-producing countries in the
-world. But before this comes about, there will have to be a complete
-revision of the Government’s policy respecting oil royalties. The
-destruction, however, wrought in Baku towards the end of 1918 will take
-several years to make good.
-
-[Illustration: ROUMANIA: A FEW OF THE HAND DUG WELLS IN BUSTENARI]
-
-ROUMANIA.--During comparatively recent time, Roumania has come
-prominently forward as one of the large petroleum-producing countries
-of the world, and its yearly output of crude oil, according to latest
-returns, is about 11,000,000 barrels, or, say, 1,600,000 tons. The
-production of petroleum in the country, however, has been proceeding
-for centuries, for, in the seventeenth century, the peasants were
-in the habit of digging wells by hand and selling the crude oil for
-medicinal purposes, the greasing of cart-wheels, as well as for
-lighting. There are many places in Roumania which are named from
-petroleum, a fact which points to the existence of the industry long
-before the present-day methods of extraction were thought of. Several
-hundreds of these hand-dug wells still exist round the fringe of the
-Transylvanian and Carpathian Alps, and though many of them have now
-fallen into decay, there are numerous others from which a payable
-quantity of petroleum is extracted by primitive methods.
-
-The hand-dug wells in Roumania are highly interesting relics of a
-period which is now relegated to the past, though so long as the
-Roumanian petroleum industry exists, so long will the old hand-dug
-wells be associated with it. These wells are about 5 feet in diameter,
-and are sunk through alternate layers of clay, schisty clay, sandy
-clay, sandstone, and petroliferous sand to the more shallow oil
-horizons. They are dug by workmen who descend dressed with the minimum
-of clothing, usually saturated with oil, and wearing a tin hat to
-protect the head from falling stones, etc. The sides of the wells
-are lined with impermeable clay, which is protected by wicker-work.
-The man is lowered by a rope, air being supplied to him by means of
-bellows. At some places the rotary fan was employed more recently,
-but somehow it frequently happened that it was operated in the wrong
-direction, and the unfortunate digger was asphyxiated. These old wells
-have a depth of about 450 feet, and though their yield of oil is not
-considerable, it has for many years been a paying proposition to those
-engaged in this primitive method of petroleum production. The excavated
-earth, when digging these wells, was brought to the surface in buckets,
-lowered and raised by means of either manual labour or horse traction.
-When the first oil source was reached and the extraction of the crude
-oil commenced, this was accomplished by means of the use of wooden
-buckets or leather skins, one being lowered empty while the other was
-raised full. By this means it was possible to raise as much as 20
-tons of the oil per day--quite a considerable amount, considering the
-primitive means adopted.
-
-Mechanical developments throughout the Roumanian oil-fields on a
-more or less serious scale began about 1898, as the result of the
-introduction of foreign capital, and, from that time to the present,
-the history of the Roumanian petroleum industry has been one steady
-period of continued expansion. Various systems of drilling have been
-introduced into the work of developing old fields or opening up new
-centres, but in regard to these I shall deal at length in another
-chapter. The advent of the rotary method of drilling, however, opened
-up a new era for expansion in 1912, and since that time Roumania has
-made more marked progress than at any time previously.
-
-The Roumanian oil-fields, as at present defined, cover a region roughly
-20 miles in width, and extend to a length of between 300 and 400
-miles, with, of course, numerous breaks. Of the numerous petroliferous
-regions in Roumania, those of Campina-Bustenari, Gura-Ocnitza, Moreni,
-and Baicoi-Tzintea among them provide about 95 per cent. of the total
-production, and, with the one exception of the Moreni field, all have
-been previously exploited by hand-dug wells.
-
-The prosperity of the Roumanian industry has been directly the result
-of the influx of foreign capital, and the majority of the 550,000,000
-francs employed in it, is mostly made up of British, American, and
-German capital. The principal English Company in the fields is the
-Roumanian Consolidated Oil-fields, Ltd., which concern, with its
-capital of one and three-quarter millions sterling, represents an
-amalgamation of many small companies.
-
-Space forbids my referring at length to the momentous happenings in
-the Roumanian fields towards the end of 1916, but they will ever
-form one of the most interesting--and at the same time the most
-tragic--incidents associated with Roumania’s petroleum industry. At
-that time, the German armies were pushing their way toward Roumania,
-and, in fact, having crossed the border, were marching on for
-possession not merely of territorial gains, but in order to secure
-themselves of large quantities of petroleum products by capturing the
-prolific oil-fields of the country. It was at that critical time that
-the British Government sent out its Military Mission, headed by Colonel
-(now Sir) John Norton Griffiths, completely to destroy all that was
-valuable in connection with the oil-fields, the refineries, and the
-installations. One night the Mission arrived at the offices of the
-Roumanian Consolidated Oil-fields, Ltd., and made its plan of campaign
-clear. There was nothing to be done but to fall in with it, and the
-following morning practically everything was destroyed, or rather, a
-start was made to destroy it. And the destruction was carried out in a
-complete manner, for not only one, but several concerns which had been
-steadily built up to perfection as the result of many years of careful
-and systematic expansion, were all wiped out, excepting in name. The
-oil-wells were plugged beyond all hope of repair, the refineries were
-dismantled, machinery broken, pipe-line connections damaged, and both
-crude and refined oil stocks burned. It was the most tragic proceeding
-ever recorded in oil-field history, but it was necessary, and not
-carried out one day too soon, for the incoming armies were dangerously
-near.
-
-[Illustration: BUSTENARI--ROUMANIA’S FAMOUS OIL REGION]
-
-The Germans lost no time in making good a great deal of the damage to
-the fields, and at the time of the armistice it was stated that the
-crude oil output of Roumania was up to 80 per cent. of its pre-war
-level.
-
-Now that the various allied interests are again operating in the
-Roumanian fields, considerable expansion of the country’s petroleum
-industry is being planned, though the pre-war German interests therein
-are now taken over by the Allies.
-
-During the past decade Roumania has necessarily catered for the export
-trade, for the volume of crude oil produced has been far beyond its
-requirements. The great petroleum storage port of Constantza has been
-made the centre for this export business, and the completion of a trunk
-pipe-line from the Roumanian refineries to the port was one of the
-most recent enterprises undertaken by the Roumanian Government prior
-to the war. During the period when Roumania was under German control
-its terminal point was so changed that the line ran to a spot which
-rendered the transport of petroleum to Germany a matter of ease. Now,
-however, Germany’s plans have been frustrated, and Roumania’s great
-pipe-line will have its terminal point at Constantza, where all kinds
-of petroleum products can be pumped direct to the oil tankers.
-
-THE DUTCH INDIES.--The growth of the petroleum industry in the Dutch
-Indies has been surprisingly rapid, and this growth synchronizes with
-the advent of the “Shell” Company into the Far Eastern fields. It is
-stated that there are many hundreds of square miles of territory in
-the East Indian Islands which can be remuneratively developed; at
-the moment, however, though but the fringe of exploitation has been
-touched, the production has been amazing. Eighteen years ago, it was
-placed at 300,000 tons of crude oil; last year it nearly reached
-2,000,000 tons. In Sumatra several companies successfully operated
-for many years, but most of them eventually became merged with the
-Royal Dutch Company, whose interests now are also those of the
-“Shell” Company. As to Borneo, the “Shell” Company commenced active
-developments in 1900, or thereabouts, for it had acquired an area of
-approximately 460 square miles. The fields rapidly responded to the
-drill, and the crude oil production rose by leaps and bounds. The
-crude was of a high-grade character, and for a long time it taxed the
-energies of those responsible for the good conduct of the concern,
-as to exactly what should be done with some of the refined products.
-As a matter of fact, some thousands of tons were burned, for at that
-time there was little or no demand for motor spirit. I well remember
-when the Company’s Chairman--Sir Marcus Samuel--faced the shareholders
-in 1900 and explained that if only the Company could realize 6d. per
-gallon for its motor spirit, what handsome profits would accrue. But
-events have marched quickly since those days. The motor-car has come
-to stay, and what seemed a useless product of the Far Eastern oils
-in the early days of development, is now one of the chief sources of
-revenue. The advent of the heavier motor spirits has also been of great
-benefit to the Borneo petroleum industry, for the public has grown
-accustomed to recognize that it is not specific gravity which counts in
-the quality of motor spirit, but the closeness of the boiling points
-of its constituent fractions. To-day, the Far Eastern fields supply
-enormous quantities of refined products to the consuming markets of
-the Eastern hemisphere, and so long as the supplying centres continue
-their present productivity, there need be no talk of approaching
-famine, for, if necessary--providing facilities permitted--these
-regions could materially increase their present output of petroleum
-products.
-
-[Illustration: OIL PRODUCTION IN THE EARLY DAYS OF THE INDUSTRY IN
-BURMAH]
-
-INDIA also ranks to-day as a very important petroleum producing
-region, the fields of Upper Burmah--in which the Burmah Oil Company
-operates--being responsible for practically the whole production. In
-another part of this little publication, I deal briefly with this
-Company’s operations, so, for the moment, it is sufficient to mention
-that, though to-day they produce large quantities of petroleum, there
-are several new districts which show much promise of new production.
-For many years the Upper Burmah fields were exploited by means of very
-shallow wells: it was only when the deeper strata were reached that the
-potentialities of the region became fully manifest.
-
-[Illustration: AN OLD JAPANESE WAY OF OPERATING THE WELLS]
-
-JAPAN, as an oil-producing country, affords food for an interesting
-story, for it was here that very early attempts were made to develop
-production. Even in the seventh century, the Emperor was presented
-with “burning water” with which the Palace was lighted. The crude
-oil was collected from pools, or, alternately, wells were dug by
-hand, the process of extraction being very picturesque, if very
-primitive. To-day, Echigo is the centre of the industry, for which
-the introduction of European methods of drilling have worked wonders
-in regard to progress. The Celestials consume large quantities of
-petroleum, especially for lighting purposes, and in spite of the now
-considerable yields from the wells, a gigantic trade is regularly done
-in imported oils, especially those of American origin, for which there
-is a most up-to-date organization for distribution. The statement that
-American petroleum products find their way to every quarter of the
-globe is strangely exemplified in Japan (as also in China), where the
-ubiquitous tin container for petroleum can be seen in the most isolated
-parts.
-
-[Illustration: THE GALICIAN FIELDS, SHOWING DAMAGE DONE BY THE RUSSIAN
-ARMIES WHEN RETREATING IN 1916]
-
-GALICIA.--Since the commencement of the period when petroleum and
-its products assumed a degree of industrial importance, the Galician
-oil regions have attracted considerable attention. The area of the
-oil-fields extends over a length of 200 miles, and in width varies
-from 40 to 60 miles, and though in this territory several fields of
-considerable note have for many years been systematically developed,
-there is enormous scope for future operations. Its annual output of
-crude oil, which nearly reached 1,900,000 tons in 1909, is in itself
-suggestive of the extensive manner in which the oil-producing fields
-have been developed during late years. The oil-field history of Galicia
-is particularly interesting, for the oil seepages round Boryslaw have
-been exploited for very many years. Long before the introduction
-of the drilling methods of modern times, the shallow oil sources in
-the Galician fields were tapped by means of the hand-dug wells, but
-it was only when the first drilled well was sunk in 1862 that the
-real value of the Galician ozokerite, which abounds in many places
-in the oil-fields, was appreciated by the operators. This ozokerite
-is one of the most valuable of bitumens, and though found in several
-countries, is nowhere met with in such large quantities as in Galicia.
-The ozokerite there fills the fissures in the much disturbed _cpaly_,
-and evidently originates from a natural process of concentration. The
-mines are operated by modern machinery, and the industry in Galicia
-has reached a stage of great importance, some thousands of tons of
-the mineral being yearly raised. The material is refined, and the
-resulting wax serves numerous commercial purposes, the refining taking
-place in the Austro-Hungarian refineries. Considerable quantities of
-the raw material are exported to Germany and Russia, while the refined
-products are well known on the export markets. About seven years ago,
-serious water trouble materially reduced the production of the Galician
-oil-wells (for when the water courses are not properly shut off,
-water may encroach and cause the loss of the producing well), but the
-trouble was to some extent surmounted by the taking of greater care in
-cementing the wells. The introduction and consequent popularity of the
-modern drilling methods which were introduced by Mr. W. H. Margarvey
-in 1882 permitted the testing of the deeper horizons of the Galician
-fields, and to-day wells are by no means uncommon with depths up to and
-sometimes exceeding 4,000 feet. The Boryslaw-Tustanowice district still
-continues to be the centre of the crude oil production, but several
-new oil areas with great promise have been opened up during the past
-six years. Naturally, the European War has retarded development work
-considerably, and the Galician fields have on more than one occasion
-been the scene of battle. At one time in 1915 they passed over to the
-Russians, but when the Russian retreat occurred later from Lemberg,
-considerable damage was done to the fields in order to prevent their
-being of immediate use to the enemy. The wells were seriously damaged,
-and the State refinery at Drohobitz was partially dismantled, while
-immense reserves of refined oil stocks were burned.
-
-The Galician oil industry has for years attracted the attention of
-foreign capitalists, for the highly remunerative nature of petroleum
-exploitation is generally appreciated. Prior to the European war
-German capital was very largely interested in the Galician industry,
-and the majority of Allied companies had Germans as their local
-representatives, but all this is now changed, and in the future Allied
-capital will be considerably increased. The Premier Company is the
-largest English concern in the Galician fields.
-
-GERMANY has made great endeavours in the past to institute a petroleum
-industry of its own, but no great success has been recorded, for while
-it does possess several oil-producing areas, these are only small
-fields, with a very limited yield of heavy petroleums. The wells,
-though producing for many years steadily, do not give forth those large
-quantities of petroleum so characteristic of the best wells in other
-petroleum-producing fields, and flowing wells are indeed very rare.
-Germany, therefore, has to look to imported petroleum for its large
-demands.
-
-In a succeeding chapter I refer at length to those oil regions which
-come within the limits of a chapter, “Petroleum in the British
-Empire”: there is no need at the moment to make reference to them here.
-
-Space does not permit my even briefly touching upon the many other oil
-regions of the world which are now being successfully operated; it is
-certain, however, as time goes on that their number will be materially
-increased.
-
-
-
-
-CHAPTER III
-
-HOW PETROLEUM IS PRODUCED
-
-
-Time was when the engineering aspect of the production of petroleum
-was practically non-existent. The ancients, and even those of the last
-century, were content to resort to the most primitive means for winning
-petroleum from the earth. Shallow wells were sunk or dug by hand, the
-eventual securing of the oil being carried out by lowering primitive
-receptacles (generally leather bottles) into the hole. It was a period
-long before the advent of the Oil Age, and the methods employed were
-clearly in keeping with the mode of life of that day. In practically
-every oil-producing field of the world--though in this respect the
-United States is almost an exception--the history records the fact that
-for many years the extraction of oil from the ground was confined to
-the use of the primitive methods which held sway in those days--those
-associated with the operations of the hand-dug wells. In the Far East,
-notably in Japan, we find the first serious attempts to obtain and
-utilize petroleum, for as far back as A.D. 615, there were shallow
-wells in existence, from which the “burning water,” as it was called,
-was collected. In Roumania and Russia, too, the earlier attempts to
-create a petroleum industry were confined to these methods.
-
-It was only when the demand for petroleum became large and consistently
-increased with the opening up of new fields, that we find other and
-more practical methods were introduced for winning larger quantities
-of the oil from the earth. To-day, in every branch of the industry
-associated with petroleum--whether it be in producing the crude
-oil, in transporting it, or in refining Nature’s product into those
-numerous commodities which are part and parcel of everyday life--the
-engineering aspect is one of very great importance. In fact, throughout
-the petroleum industry, engineering science is the Alpha and Omega. By
-its means we are now able to carefully study the nature of the ground
-at depths of 6,000 feet, and to extract from the deep lying strata a
-wealth of minerals; we are able, too, to transport thousands of tons of
-crude oil daily across thousands of miles of continent, while is it not
-the direct result of engineering science which allows over 15,000 tons
-of petroleum products to be carried across the oceans of the world in
-one vessel with the same ease that one would take a rowing boat from
-one side of a lake to another?
-
-Great, however, as have been the degrees of progress recorded in
-connection with drilling for petroleum, the old methods, generally
-speaking, and which date back to the days of early China, are still
-largely copied in all pole and percussion systems of drilling, and
-though steam has replaced manual labour (and electricity now bids
-fair to replace steam), the operating principles to-day are the same
-as then. The only exception, of course, is the advent and growing
-popularity of the rotary method of drilling, to which interesting phase
-of the subject I will briefly refer later.
-
-The old Eastern method of drilling has obviously been the forerunner
-of the Canadian, standard, and other systems of to-day, the wire rope
-replacing the use of poles. In oil-field work, the principal types
-of percussion drills used are known (1) as the Pennsylvanian cable,
-(2) the Canadian pole, and (3) the Russian free-fall system, and
-though from time to time many attempts have been made to introduce
-modifications of these, the vast majority have been unsuccessful in
-their operation.
-
-The Pennsylvanian cable system was used for drilling the earliest
-oil-wells in the United States, and doubtless took its name from the
-fact that it was so largely used in that oil region. As may also be
-gathered from the name, the principal feature in this system is the
-cable by which the tools are suspended and connected to the walking
-beam. There is no doubt that this system of drilling, which has been so
-universally used in the oil-fields, gives most satisfactory results.
-When first introduced in Pennsylvania, the cable system of drilling
-was particularly simple, and did remarkably good work, for the reason
-that the strata usually encountered was of such a nature that it did
-not cave, and, as a result, the well-pipe was only lowered when the
-full depth of that string had been drilled. The drilling bits were
-seldom more than 4 inches thick. In order to give a rotary motion to
-the bit, the continuous twisting of the cable to and fro was necessary;
-but when in other fields, where deeper strata had to be explored, the
-cable system was introduced, the semi-sandy nature of the strata called
-for wells of larger diameter with correspondingly larger drilling
-bits. As a consequence of the additional weight of the drilling bit,
-it was found that the swing of the tools was sufficient to give them a
-rotating movement for the drilling of a circular hole. In regions where
-caving-in of the walls of the wells was liable to occur, the string of
-pipe had to closely follow the tools, which, with the old Pennsylvanian
-type of rig, meant frequent winding of the cable from the bull wheel,
-so as to allow of the well pipes being handled.
-
-In order to prevent the waste of time which these operations
-occasioned, the calf wheel was added, by means of which the pipe could
-be lowered into the hole without the removal of the drilling cable.
-This cable almost invariably was of the Manila character, and in many
-instances this rope is retained to-day, though wire ropes have been
-introduced frequently.
-
-The Canadian pole system, which is largely in use in oil-field
-operations, is, like the first-mentioned method of drilling, of the
-percussion type, the chief essential difference being that, instead of
-a cable connecting the tools to the surface, poles are used. In former
-times, these poles were of ash-wood, but with the extended use of the
-system, iron rods took their place. The introduction of these iron rods
-was a distinct advantage, for they could be welded to whatever lengths
-are required, whereas the wooden poles, which were seldom more than
-20 feet long, had to be spliced for practical work. The rig used with
-the Canadian system is not so powerful as that for the Pennsylvanian
-method, but the one great advantage of the Canadian system is that,
-for the drilling of shallow oil-wells, it could be operated by men of
-less experience. The success which has attended the operation of the
-pole system lies in the fact that although drilling by its means is
-very slow--for seldom is 250 feet per month exceeded--it is one of the
-best methods of drilling through complicated strata, and, in the hands
-of conscientious men, does highly satisfactory work. It might be of
-interest to very briefly refer to the operations of the system when
-a well is being drilled. The rig (that is, the superstructure above
-ground) is quite a simple framing, 70 or more feet high, with a base
-of about 20 feet. The power is usually derived from a steam engine,
-with the usual means for operating the gear from the derrick; fuel
-found locally, natural gas, or other form of heating agent used. One
-shaft and two spools running in bearings transmit the various motions
-desired, the drive being taken up by a pulley attached to the main
-shaft. On this shaft are keyed two band pulleys, which communicate by
-belting with two spools running immediately overhead in the upper part
-of the framework. Fastened to one extremity of the main shaft is a
-disc crank, which, through the medium of a connecting rod, transmits
-an oscillating movement to an overhead pivoted walking beam. In all
-systems of percussion drilling, the drilling bit is raised and then
-dropped a distance of several feet, the result being that the strata to
-be drilled are steadily pounded away. As the ground is pulverized by
-the percussion tools, the debris has to be cleared away so as to enable
-the drill to fall freely and to deliver clean blows to the unbroken
-strata, and this work is performed by appliances known as bailers and
-sand pumps. There is no need for me to go into the numerous technical
-details regarding this or any other system of drilling, for my only
-desire is to give a general impression as to the usual methods adopted
-for the winning of petroleum.
-
-I will therefore pass on to deal briefly with the Russian free-fall
-system so much in vogue in the Russian fields. Incidentally, I may
-here say that when drilling for oil in Russia, one has to recollect
-several features which are not common to the development of other
-oil-fields. Bearing in mind the great depth to which wells have to be
-sunk to reach the prolific oil horizons in the majority of the fields
-in Russia, which necessitates starting the well with a very large
-diameter--frequently 30 inches--it will be easily appreciated that the
-loss of a hole in the course of drilling is a very expensive affair.
-The Russian free-fall system of boring necessitates patient and hard
-manual labour. It is, as its name implies, of the percussion type, and
-is, in fact, a modified pole-tool system which well suits the local
-conditions. The clumsy drilling tools have a practically free drop,
-being picked up when the walking beam is at its lowest point, and
-released at the top of the stroke. When released, the tools naturally
-force their way downwards in the strata, and are released only with
-difficulty, although in a measure this difficulty is minimized on
-account of the fact that the under-reaming (slightly enlarging the
-diameter of the hole) is done simultaneously with the drilling.
-
-After a Russian well has been started by means of a slip-hook
-suspended from a haulage rope, and a depth of some 30 feet obtained,
-the free-fall is added to the string of tools. This free-fall is
-composed of two separate parts--the rod and the body--and these are
-held together by means of a wedge working in vertical slots cut in the
-sides of the body. In operating the free-fall, the handles, fixed to
-the temper screw, are held by the driller. On the downward stroke these
-are pushed forward from right to left, but as soon as the downward
-stroke is completed, they are quickly pulled backwards. The steel
-wedge enters the recess and the tools are carried to the top of the
-stroke, where, by a quick forward jerk, the wedge is thrown clear of
-the recess, and the tools drop freely, the momentum of the string of
-tools driving the drilling bit deeper into the hole. After several feet
-of the hole are drilled, the tools have to be withdrawn in order to
-allow the pulverized mass of debris to be cleared away, while, owing to
-the caving nature of the strata, it is necessary to case the well as
-drilling proceeds.
-
-As I have said, the system is very cumbersome, but, in the hands of
-experienced men, it does its work well, if but slowly. There are many
-cases on record where, when the well has assumed a considerable depth,
-it has been completely spoiled by the carelessness of the operators,
-but, more often than not, this has been deliberate, for the Caucasian
-oil-field worker has many grievances, admittedly more or less imaginary.
-
-[Illustration: ILLUSTRATION OF THE “OILWELL” HEAVY ROTARY OUTFIT,
-SHOWING RING AND WEDGE (ON LEFT-HAND SIDE OF FOREGROUND) TO GRIP THE
-CASING]
-
-During recent years, the rotary method of drilling has been
-successfully adopted, and it is in regard to this revolutionary method
-of speedy drilling that I will now touch upon. The rotary method of
-drilling made its début in Texas some fourteen years ago, and since
-then it is not any exaggeration to say that nearly 20,000 wells for oil
-have been drilled with the system, which has found popularity in all
-the oil-fields of the world. Its main operation is simplicity itself: a
-rigid stem of heavy pipe rotates a fish-tail drilling bit at the bottom
-of the hole, cutting and stirring up the formation to be drilled. It
-cuts its way through the underground formations, much in the same way
-as a screw when rotated forces its way through wood. It is the essence
-of speed in drilling, for, unlike the necessary principles to be
-adopted in the percussion methods of drilling, the rotary drill does
-not have to be lifted from the hole for the purposes of clearing. The
-pulverized strata are continuously washed from the hole by a stream of
-water reaching the bottom of the drill. Very frequently, a pressure-fed
-mud is used, and this serves a double purpose, for in its return to
-the surface it tends to plaster the walls of the well. The mud emerges
-in streams of high velocity from the two apertures in the drilling bit
-(for in its downward course it is carried through the drilling pipe or
-stem), but naturally loses this velocity considerably in its return to
-the surface. It is, however, very easy to detect the kind of stratum
-being drilled through from the returned cuttings, these reaching the
-surface but a few minutes after the drilling bit has entered the
-formation.
-
-From time to time various grievances have been ventilated against this
-improved system of boring for petroleum, but to-day its adoption is
-world-wide, and by its use wells which, with the old-fashioned method
-of drilling would take many months if not two or three years, are now
-got down to the producing horizons in but a few weeks. It is, in fact,
-solely due to the ever-increasing use of the rotary drill that the
-universally increased demands for petroleum products have been met by
-an ever-increasing production of the crude oil.
-
-Leaving the question of drilling methods, I cannot fail to mention
-the interesting fact that in oil-field operations progress is now
-being recorded in another direction, and that is by the increasing
-utilization of electrical power in the place of steam. At the time
-of writing, it is safe to say that fully 60 per cent. of the power
-requirements on the oil-fields is provided for by steam plants,
-with their attendant waste. Oil and gas engines, with their greater
-efficiency, may claim to be operated to an extent of 35 per cent.,
-while not more than 5 per cent. of the requirements are satisfied
-by the use of electric motors. There is no doubt that prejudice has
-had a deal to do with the very minimized use of electrical power on
-the oil-fields in the past, but this is being gradually swept aside,
-and, in the next few years, I have no doubt that both electrical
-manufacturers and the petroleum industry generally will materially
-benefit from the use of this cheap and very economical form of power.
-In the past, many disastrous oil-field conflagrations have been due
-solely to the use of open-fired engines in close proximity to the
-wells, but with the use of electrical energy this fire danger will be
-rapidly removed.
-
-Before closing this chapter, I would say a word or two with respect to
-the bringing into the producing stage of the oil-wells when once they
-have been drilled. In the early history of oil-held developments,
-it was not infrequent to find the crude oil ejected from the well
-by natural pressure, but to-day it is the exception to find those
-oil-fountains which have made the early history of the Russian
-oil-fields so famous. In many of the fields, explosives are used to
-promote the flow of oil, and when the well “comes in” to production,
-the ordinary methods of bailing or pumping are resorted to. Compressed
-air is also used for bringing about and sustaining production. The
-quantity of air and the periods of admission naturally vary with
-the diameters of the wells, the amount of gas present, the level of
-the liquid, etc., which latter also determines the pressure of air
-necessary.
-
-The natural exhaustion of oil-wells can obviously have no remedy, but
-areas conveying that impression can often be revived by methods, the
-study of which is being carefully continued. As I write, I find that
-the officials of the United States Bureau of Mines, who have been
-studying this question of exhaustion, have arrived at the conclusion
-that from 20 to as much as 90 per cent. of the crude oil remains in
-the strata tapped by the well, even when it is abandoned as no longer
-capable of profitable production. This conclusion opens up what may
-prove some day to be a most interesting chapter in oil-field history.
-
-
-
-
-CHAPTER IV
-
-THE REFINING OF PETROLEUM
-
-
-Inasmuch as the aim of this little volume is to interest other than
-those who are directly associated with the petroleum industry, I shall
-endeavour in this chapter to refer to the refining of petroleum in a
-manner which shall be readily understood by the reader, and shall,
-wherever possible, refrain from entering into those highly technical
-matters which do not lend themselves to popular expression.
-
-The refining of crude oil as it is produced from the earth, consists in
-the classification of its various hydrocarbons by means of fractional
-distillation, into the various products which so largely enter into our
-commercial and domestic life of to-day. The refined products, in the
-order in which they are received by distillation, are: motor spirit,
-illuminating oils, solar oils, lubricating oils, fuel oils, residuum,
-etc.--the first mentioned being the lightest and the last the heaviest
-in specific gravity.
-
-Almost simultaneously with the discovery of petroleum, there sprung up
-the first attempts to refine Nature’s product, and though these early
-experiments were of a most primitive character, they doubtless served
-their purpose admirably. In this respect, probably the most primitive
-oil refinery in the world was built near the Tigris, in Mesopotamia.
-
-Crude petroleum varies in its character, for while certain crudes
-are pale in colour and almost transparent, others are almost black
-and viscid. Some, indeed, would appear to have undergone a course of
-refining by Nature itself, for in some fields the crude oil will
-freely burn in lamps without any refining treatment: in the vast
-majority of cases, however, the crude oil, as withdrawn from the
-producing wells, represents a liquid somewhat like molten tar.
-
-The chemical composition of petroleum consists essentially of carbon
-and hydrogen, together with oxygen and varying amounts of nitrogen
-and sulphur. The crude from Pennsylvania--and this is the finest
-crude in the United States--consists chiefly of a large number of
-hydrocarbons of the paraffin series, whilst in the Russian petroleums,
-the predominant constituents are naphthenes or polymethylenes. Then
-the crude petroleum of the Dutch Indies and Burmah is of a different
-character from that found elsewhere, for in it aromatic hydrocarbons
-are largely present. The various series of hydrocarbons found in
-crude oils--the paraffins and naphthenes--readily lend themselves to
-conversion into other compounds of carbon and hydrogen by dissociation,
-and this conversion produces compounds of higher volatility, such as
-motor spirits, etc. When the compounds of hydrogen and carbon are
-submitted to distillation, certain chemical changes occur, as the
-result of which other series of hydrocarbons are formed, and, though it
-is not my intention here to dive into this comparatively new realm of
-chemical investigation, it is interesting to mention that, by carrying
-the treatment of the compounds still further, it is possible to obtain
-aromatic hydrocarbons, including trinitrotoluene (generally known as
-the explosive T.N.T.), in addition to various dye products.
-
-In the earlier methods of refining, the stills usually consisted of
-a vertical cylinder in which the charge of crude oil was distilled
-almost to dryness, but this method was completely revolutionized many
-years ago, especially in the United States, by the introduction and
-immediate success of a principle known as the “cracking” process, and
-by the separation of the distillation into two portions, one for the
-removal of the more volatile constituents in the crude oil (such as
-motor spirit) and the other for the treatment of the heavier products.
-
-
-                                                                          CRUDE OIL
-
-                                                                    FRACTIONAL DISTILLATION
-                                                                              |
-             +--------------------+-----------------+--------------------+----+------------------+
-             |                    |                 |                    |                       |
-       Crude Naphtha          Heavy Crude         Natural         +-------------+         Cylinder Stock
-             |                 Naphtha           Lamp Oil         | Lubricating |                |
-      Steam Distillation          |                 |             | Distillate  |                |
-             |             Steam Distillation   Distillate        +-------------+                |
-     +-------+-----+              |               Acid                   |                     Clay
-     |       |     |        +-----+---+        Treatment           Cold Pressing            Percolation
-  Gasoline   |   Bottoms    |         |             |                    |                       |
-             |              |      Bottoms   +------+---+           +----+------+                |
-       +------------+       |                |          |           |           |                |
-       | Naphtha    |   +------------+     Sludge       |       Slack Wax  +-------------+       |
-       | Distillate |   | Naphtha    |                  |           |      | Pressed     |       |
-       +------------+   | Distillate |            +---------+    Sweating  | Lub’g Dist. |       |
-             |          +------------+            | W W Oil |     Process  +-------------+       |
-       Acid Treatment                             +---------+       |              |             |
-             |                                                +-----+----+         |     +-------+---+
-      +------+---------+                                      |          |         |     |           |
-      |                |                                      |        Foots       |  Asphalt        |
-    Sludge        Deodorized                                  |         Oil        |          +----------+
-                   Naphtha                                    |                    |          | Cylinder |
-                                                      +--------------+             |          |   Oil    |
-                                                      |    Crude     |             |          +----------+
-                                                      | Paraffin Wax |         Fractional
-                                                      +--------------+        Distillation
-                                                              |                    |
-                                                            Clay              +----+--------+
-                                                         Percolation          |             |
-                                                              |          +------------+  +-----------+
-                                                    +--------------+     | Gas & Fuel |  | Neutral   |
-                                                    |              |     | Oil Stock  |  | Oil Stock |
-                                                    |          Asphalt   +------------+  +-----------+
-                                             +--------------+                                  |
-                                             | Paraffin Wax |                                 Clay
-                                             +--------------+                              Percolation
-                                                                                               |
-                                                                                    +----------+---+
-                                                                                    |              |
-                                                                                 Asphalt           |
-                                                                                           +-------------+
-                                                                                           | Neutral Oil |
-                                                                                           +-------------+
-
-
-DIAGRAM SHOWING THE PRODUCTS OF PETROLEUM BY FRACTIONAL DISTILLATION
-
-I will first deal with the method of refining known as the “straight”
-process, or the process which does not involve “cracking.” At one time,
-the refiner had to consider the saleability of his refined products
-before he commenced to refine them, but to-day, with the perfect system
-which prevails for the handling of huge quantities of refined products,
-and the transporting of them to the most distant markets, the one
-desire of the refiner is, naturally, to secure from his treatment of
-the crude oil, as many refined products as possible, always keeping an
-eye on the production of the largest quantities of the higher priced
-products than upon those which are of low value.
-
-The process of refining to be applied to any particular oil naturally
-depends upon its composition as shown by analysis. It may be that the
-crude oil to be treated, apart from containing a small percentage of
-distillates with a low boiling point (motor spirit), is principally
-made up of residues of little value except as fuel, or, on the other
-hand, it may be that the crude oil is of high quality and contains all
-possible products. In the former case, the process of distillation is
-brief, and the plant inexpensive, as compared with the lengthy process
-of full refining necessitated in the latter case.
-
-The refining operations consist of three distinct branches: (1) the
-distillation, (2) the extracting of paraffin and refining, and (3)
-the chemical treatment. When only a small percentage of the low
-boiling fractions has to be removed from the crude oil, the process
-is known as “topping,” and a convenient form of apparatus for the
-purpose is the tower still. This consists of a vertical cylinder
-fitted with perforated plates resting at intervals on pipes through
-which superheated steam travels. The pipes serve the double purpose
-of conveying the steam to its inlet and of heating the oil to be
-distilled. The steam, on entering the cylinder, ascends, meeting the
-crude oil, as it descends from plate to plate in a regulated stream,
-and carrying with it to the outlet the light fractions which the
-operation is intended to remove.
-
-
-                                                                        CRUDE OIL
-
-                                                                   CRACKING DISTILLATION
-                                                                           |
-                  +-----------------------+----------------+---------------+---------+----------------------------------------------+
-                  |                       |                |                         |                                              |
-             Crude Naphtha           +---------+         Natural            Cracked Distillate                                     Tar
-                  |                  |  Crude  |        Lamp Oil                     |                                              |
-             Steam Distillation      |  Heavy  |       Distillate           Steam Distillation                                 Mild Cracking
-                  |                  | Naphtha |           |                         |                                          Distillation
-     +------------+-----------+      +----+----+     Acid Treatment        +---------+---------+                                    |
-     |            |           |           |                |               |                   |                    +----------+----+----+-----------+
-  Gasoline        |         Bottoms       |           +---------+     +---------+         +------------+            |          |         |           |
-            +------------+                |           |         |     |  Crude  |         |   Test     |     +------------+    |    +----------+   Coke
-            |   Naphtha  |              Steam       Sludge     Lamp   | Naphtha |         |  Cracked   |     |  Cracked   |    |    |    Wax   |
-            | Distillate |           Distillation     |        Oil    +---------+         | Distillate |     | Distillate |    |    | Tailings |
-            +------------+                |           |                    |              +------------+     +------------+    |    +----------+
-                  |                 +-----+-----+     |                  Acid                   |                              |
-             Acid Treatment         |           |     |               Treatment                Acid                   +----------------------+
-                  |          +------------+  Bottoms  |                    |                 Treatment                | Paraffin  Distillate |
-       +----------+---+      |   Naphtha  |           |            +-------+--+                 |                     +----------------------+
-       |              |      | Distillate |           |            |          |          +------+-----+                        |
-    Sludge            |      +------------+           |         Sludge        |          |            |                  Cold Pressing
-            +------------+                        Separated            +----------+   Sludge          |                        |
-            | Deodorized |                        by boiling           | Gasoline |            +------------+          +-------+----------+
-            |   Naphtha  |                        with water           |  Stock   |            |  Treated   |          |                  |
-            +------------+                            |                +----------+            |   Test     |        Slack        Pressed Paraffin
-                                              +-----------+                 |                  | Distillate |         Wax             Distillate
-                                              |           |              Steam                 +------------+          |                  |
-                                     +-----------+      Acid          Distillation                    |            Sweating          Fractional
-                                     |    Weak   |       Oil                |                     Fractional        Process         Distillation
-                                     | Sulphuric |        |           +-----+---+                Distillation          |                  |
-                                     |    Acid   |        |           |         |                     |                |          +-------+-------+
-                                     +-----------+        |        Gasoline  Bottoms       +---------------+           |          |               |
-                                                      Fractional                           |               |           |    +------------+  +-----------+
-                                                     Distillation                    +------------+  +----------+      |    | Gas & Fuel |  | Paraffin  |
-                                                          |                          |  Standard  |  | Gas and  |      |    | Oil Stock  |  | Oil Stock |
-                                                    +----------+                     |   White    |  | Fuel Oil |      |    +------------+  +-----------+
-                                                    |          |                     | Distillate |  | Stock    |      |                          |
-                                                Acid Oil    Asphalt                  +------------+  +----------+      +--------+                 |
-                                               Distillate                                  |                           |        |                 |
-                                                                                     Acid Treatment                    |      Foots              Acid
-                                                                                           |                           |       Oil             Treatment
-                                                                                    +-------------------+              |                          |
-                                                                                    |                   |         +----------+              +-----+-----+
-                                                                         +--------------------+      Sludge       |   Crude  |              |           |
-                                                                         | Standard White Oil |                   | Paraffin |         +----------+   Sludge
-                                                                         +--------------------+                   |    Wax   |         | Paraffin |
-                                                                                                                  +----------+         |   Oil    |
-                                                                                                                        |              +----------+
-                                                                                                                Clay Percolation
-                                                                                                                        |
-                                                                                                                 +------+----+
-                                                                                                                 |           |
-                                                                                                              Asphalt   +--------------+
-                                                                                                                        | Paraffin Wax |
-                                                                                                                        +--------------+
-
-DIAGRAM SHOWING THE PRODUCTS OF PETROLEUM OBTAINED BY THE “CRACKING”
-PROCESS
-
-A few years ago, a Californian chemist invented an improvement of the
-principles of maximum heating and evaporating surfaces. His name was
-Trumble, and the process is known as the Trumble process. The crude
-oil is heated to the desired temperature in pipes or retorts set in a
-primary furnace, the hot gases of combustion from which are utilized to
-heat the distillation chamber proper. Entering the vertical cylinder at
-the top, the oil is spread over and through perforated plates falling
-on a cone-shaped plate to divert the continuous stream of oil to the
-sides of the still, down which it flows in a thin film. Other conical
-plates, arranged at intervals underneath, maintain the flow in the
-desired channel until it reaches the outlet at the bottom. When 60 or
-70 per cent. (comprising the motor spirit series, the kerosenes, and
-perhaps the intermediate fractions) are to be removed, it is common
-practice to distil the crude oil in a series of stills, cylindrical in
-shape, connected continuously. The best-known system is that patented
-35 years ago by Mr. Henderson, of the Broxburn Oil Company, Ltd., for
-the distillation of shale oil, and since adopted by many refiners of
-petroleum. In this system, the crude oil flows from a charging tank by
-gravity through a pre-heater, heated by the passage, from the second or
-other still, of distillates of suitable temperature, and thence into
-the first still. Here it is raised to distillation temperature, and the
-specific gravity of the distillate therefrom fixed. The feed of the
-crude oil is constant, the residue formed in the still passing through
-a connection at the bottom into the second still in the series, at the
-top, and led from back to front so that the inlet and outlet shall be
-as far apart as possible. It is here raised to a higher temperature,
-yielding a distillate of higher specific gravity, the residue passing
-on to the next still, and so on through the series of stills until it
-reaches the point where all the motor spirit (or benzine, as it is
-called), kerosene, and the intermediate distillates are removed.
-
-The distillates obtained from the refining of the crude are usually
-purified by treatment successively with sulphuric acid and solution of
-caustic soda, this process of chemical treatment being necessary before
-the products are fit for the market.
-
-The “cracking” process of distillation briefly consists in distilling
-the oils at a temperature higher than the normal boiling points of
-the constituents it is desired to decompose, and, in practice, the
-result is that the heavier oils are turned into lighter hydrocarbons
-of lower boiling points: thus the yield of the more valuable of the
-refined products is materially increased. The “cracking” process,
-which very largely obtains to-day, was quite accidentally discovered
-by a small refiner in America many years ago. The man in charge of the
-still left it with the intention of returning very shortly. He was,
-however, absent for several hours, and to his dismay found that; as the
-result of his neglect in attending to the still, a very light coloured
-distillate of much lower density than that which it was usual to
-obtain, was issuing from the condenser.
-
-Upon investigation, it was found that a portion of the distillate
-had condensed upon the upper part of the still, which was cooler,
-and had dropped back into the still, where the temperature was
-sufficient to produce products of a lower boiling point--certainly
-a distinct improvement. As may be imagined, this “cracking” process
-does not commence until the lighter products of distillation have been
-removed, and is now so popular because by its use a greater yield can
-be obtained of those more valuable products for which there is an
-ever-increasing demand.
-
-It is unnecessary here to enter into those various improvements which
-have been introduced from time to time, all of which have as their
-aim the production of larger quantities of refined oils, and it would
-likewise be invidious to enumerate even the more popular scientists to
-whose energies much of the resulting progress has been due, for the
-simple reason that it has ever been the aim of the petroleum chemist to
-turn his abilities in the direction indicated.
-
-As may be imagined, the industry of petroleum refining has had to adapt
-itself to the altered conditions of to-day. For instance, prior to the
-advent of the internal combustion engine, which now is responsible
-for such a wide application of motor spirit, the demand for this,
-the lightest product of petroleum distillation, was non-existent.
-Consequently, when such spirit was produced, there was no market for
-it, and its production represented sheer loss to the refiners. Both
-in the Far East and in Russia, we have examples of the enormous loss
-which accrued to the refiners by reason of there being no market
-for this highly inflammable product. In the Far Eastern fields, in
-particular, this loss was very heavy, for in the earlier days of its
-operations, the “Shell” Company had to remove thousands of tons of
-this now valuable motor spirit from its refineries and burn it in the
-open fields. The successful introduction of the internal combustion
-engine, however, completely changed the aspect of petroleum refining,
-and the desire became general, not to see how little motor spirit could
-be produced, but to perfect methods by which the yield of the benzene
-series of hydrocarbons should be as large as possible. Even to-day
-progress is still being recorded in this direction, and each American
-refiner is vying with his neighbour as to how far that output of
-gasoline, as it is there called, can be increased.
-
-Many and varied are the means which have been resorted to for this
-purpose, but most of them have reference to improvements in the
-processes for refining the crude oil. One, however, is worthy of being
-mentioned in this little treatise, inasmuch as it deals with quite
-another aspect of the problem of increased motor spirit supply.
-
-As I have mentioned in another chapter, enormous quantities of natural
-gas exude from the oil-wells, and this in the past has been for the
-most part allowed to go to waste in the air, causing an ever-present
-danger to oil-field operations on account of its liability to ignite.
-Being heavier than the air itself, for it is impregnated with oil
-gases, it remains for long periods in the lower air strata, and,
-consequently, not infrequently, has been the direct cause of great
-oil-field fires. This gas--casing-head gas, as it is termed--comes from
-the oil-wells between the casing and the tubing, and, in the case of
-numerous wells, the flow is remarkable, some wells giving forth 300,000
-cubic feet of gas every 24 hours, and the only useful purpose that this
-vapour has served until recent years has been to light several towns
-situated comparatively near to the oil-producing fields. The great
-volume of the gas, however, has been allowed to go to waste.
-
-But experiments have proved that the gas is capable of condensation
-into motor spirit, and the general yield of such spirit may be taken
-as fully 2 gallons per 1,000 cubic feet of natural gas treated. What
-wonderful possibilities lie in the direction of the conversion of this
-vapour into motor spirit! The oil-producers in the United States have
-not been slow to appreciate this, and to-day there are hundreds of
-plants in the United States which have been erected solely to condense
-these oil-well gas vapours. Some of these plants are dealing with as
-much as 3,000,000 cubic feet of gas a day. The most recent official
-returns available from the United States show that the production of
-gasoline (motor spirit) from this process of oil gas condensation is,
-approximately, 150,000,000 gallons per annum, and even this substantial
-figure is being steadily increased.
-
-There is also another phase of the oil-refining industry which, during
-recent years, has materially altered. I refer to the production of
-solar oil during distillation. It is an apt saying that we can scarcely
-look to any section of our commercial or domestic life without being
-confronted with the fact that oil products play some part therein:
-there are few, however, who, without reflection, would agree that when
-they light their gas they are dependent upon petroleum for much of the
-light the gas gives. It is, nevertheless, a fact, as I will proceed to
-show.
-
-Many years ago, the oil refiners in Baku were confronted with a
-problem which appeared for some time to be insurmountable. After the
-distillation of their kerosene, or illuminating oil, and before they
-could commence to take off the lubricating oil fractions, there was an
-intermediary product which, while being of no use for lamp oil, did not
-possess the necessary constituents of viscosity to make it acceptable
-as a lubricant. It was a fairly decent volume of something for which
-there was no market at the time.
-
-Experiments were made, and with these the name of Dr. Paul Dvorkovitz
-will ever be associated, and it was found that by the passage of a
-current of gas over the surface of this intermediate product, the gas
-caught up as it were a richness which materially increased the lighting
-power of the gas. To cut a long, but highly interesting, story short,
-this solar or gas oil was subsequently introduced by Dr. Dvorkovitz to
-England for gas enrichment purposes, and the extent of its employment
-to-day may be judged from the fact that the United Kingdom regularly
-imports between 60,000,000 and 70,000,000 gallons per annum for the
-enrichment of the coal gas which finds useful employment in practically
-every home throughout the land. As is known, the gas companies have to
-produce gas of a certain lighting quality, and it is in the upholding
-of the lighting strength of the gas that solar oil to-day plays so
-important a part. At first, the oil came almost exclusively from
-Russia, but now the competition from the United States has secured
-for our American friends the vast bulk of the trade, which, as I have
-shown, has reached enormous proportions.
-
-Solar oil is also largely utilized for the production of refined
-perfumery oils, which are quite colourless and inodorous, while the
-finest quality is used in pharmacy and known as _paraffinum liquidum_,
-and is in much demand, but in this connection it is the Russian
-petroleums that have gained distinction. It was held for many years
-that such tasteless and colourless oils could not be produced from the
-United States petroleums, but from the commencement of the European
-War, and the consequent closure of Russia’s export port, whereby all
-overseas trade in Russian petroleums was held up, much progress was
-made in the manufacture of tasteless medicinal petroleums in the United
-States, such articles having now become popular throughout the world.
-
-One of the most important discoveries made during recent years has
-been the finding of large quantities of toluol in petroleum. This
-article is necessary for the manufacture of high explosives. In Borneo
-heavy petroleum, toluol exists to a very large extent, and it was its
-discovery and consequent use by the allies--thanks to the offer made
-to the Governments by Sir Marcus Samuel, Bart.--that almost unlimited
-quantities of high explosives were manufactured.
-
-Vaseline is another useful commodity which is derived from the refining
-of crude petroleum, and this article is turned out of the American
-refineries as well as those of Russia and Galicia, in large quantities,
-but, beyond mentioning this fact, no useful purpose would here be
-served by relating the various processes employed.
-
-With reference to the methods generally adopted in the refining of the
-products from the distillation of the Scottish oil shales, these are
-briefly dealt with in the chapter devoted to the Scottish oil industry.
-
-It is safe to say that the past two or three decades have witnessed
-marked progress in perfecting the methods by which crude petroleums are
-refined into the innumerable common commodities of commerce, and it
-is doubtful whether in any branch of chemical research there has been
-such concerted energy shown as in regard to the refining of mineral
-oils. Signs, however, are not wanting to show that the zenith of this
-progress has by no means been reached.
-
-
-
-
-CHAPTER V
-
-TRANSPORT BY LAND AND SEA
-
-
-The remarkably perfect methods by which petroleum and its products
-are transported by land and sea before they reach the consumer may
-not at first sight appear to be anything but commonplace, but a
-moment’s reflection will be sufficient to suggest that a vast and
-complete organization must be required in order that petroleum may be
-brought from practically the ends of the earth to the consumer in the
-most remote village in the British Isles. But it is the demands of
-necessity that have been responsible for the building up of this vast
-organization of transportation which represents, in the United States
-alone, the investment of many millions of pounds sterling.
-
-Taking first the methods of oil transportation by land, in no other
-oil-producing country do we find such an elaborate system for dealing
-with enormous quantities of petroleum as in America, for it is safe to
-say that at least 500,000 barrels of crude oil have to be dealt with
-daily at the present time.
-
-Going back to the time when petroleum first became a commercial
-commodity--when the first wells in Oil Creek commenced to open up
-a period of new prosperity for the United States--these wells were
-situated so close to the water that their product could easily be
-loaded into canoes and barges, and floated down the Alleghany river. In
-the dry season, the flow was insufficient to float the craft, and then
-some hundreds of the boats, carrying each from 50 to 1,000 barrels,
-would be assembled in a mill-pond near the wells, and the water
-impounded while the loading was in progress. Then the gates would be
-opened, and the fleet, carried on the flood of rushing water, would
-be hurried down the river in charge of pilots. The fleet of creek and
-river boats engaged in this novel work at one time numbered 2,000.
-
-But, as the production of oil increased, and new districts were
-successfully tapped, it became obvious that some different method of
-handling the crude oil would have to be adopted. The inland wells
-could not get rid of their production, and it is not surprising to
-find that at one time--about 1862--crude oil prices at the well fell
-to 10 cents per barrel. A system of horse haulage was initiated, and
-in time thousands of animals were required to haul the oil from the
-inland wells to shipping points. The waggon train of the oil country
-in the pre-pipe-line days at its maximum consisted of 6,000 two-horse
-teams and waggons, and a traveller in the oil region in those early
-sixties could not lose sight of an endless train of waggons each laden
-with from five to seven barrels. The roads were almost bottomless, and
-the teamsters tore down fences and drove where they liked. These men,
-always of the roving, picturesque type, would earn anything from 10 to
-25 dollars per day, spending the most part in revelry on the Saturday
-night.
-
-It was at this time that a Bill was introduced into the States
-legislature authorizing the construction of a pipe-line from Oil
-Creek to a spot known as Kittanning, but the opposition of 4,000
-teamsters defeated the Bill and the first effort to organize an oil
-pipe-line company. The modest beginning of the present-day system of
-oil transportation on land by pipe-line was due to the enterprise of
-a Jerseyman named Hutchings, who laid a 2-inch pipe from some wells
-to the Humbolt refinery. The teamsters, foreseeing the possibilities
-of this innovation, proceeded to tear up the line, and warned the
-oil-producers not to adopt these new methods of oil transportation.
-
-But Hutchings was undismayed, for he laid a second line, this being
-composed of cast-iron joints caulked with lead. Although this
-was impracticable, the teamsters again wrought vengeance on the
-proposition, and completely destroyed it. Hutchings still persisted in
-his efforts, but died--disappointed and penniless--a genius living a
-little before his time.
-
-[Illustration: A PRIMITIVE METHOD OF TRANSPORTING OIL]
-
-At the end of 1865, a Henry Harley commenced the laying of a pipe-line
-to the terminus of the Oil Creek railroad, but teamsters cut the pipes,
-burned the collecting tanks, and retarded the work in every possible
-way. Armed guards eventually came on the scene, the mob was quelled and
-dispersed, and the line completed. It was of 2-inch diameter, and laid
-to handle 800 barrels of oil daily: this was the first successful and
-profitable pipe-line on record for the handling of oil.
-
-From this time, the number of pipe-lines have multiplied, until to-day
-there are thousands of them scattered throughout every oil-producing
-field of America. The first long main transportation line for oil
-was laid in 1880 from Butler County to Cleveland, a distance of over
-100 miles, and immediately after its completion, trunk lines were
-commenced from the Bradford oil region to the Atlantic seaboard. The
-popularity of this new method of oil transportation may be judged from
-the fact that within three years from the completion of these first
-propositions, the National Transit Company possessed over 3,000 miles
-of oil pipe-lines, and had iron tank storage for 35,000,000 barrels of
-crude oil.
-
-Then a few master minds came to the front, and loyally supported by
-Mr. John D. Rockefeller, of Standard Oil fame, they undertook the
-herculean task of practically girdling the States with a system of oil
-pipe-lines that has no parallel anywhere. They eliminated the jaded
-horses, oil-boats, wooden tankage, and slow freights, tedious methods,
-and questionable practices of handling petroleum, and substituted
-therefor the stem pump, the iron conduit, the steel tank storage, and
-systematic and businesslike methods which soon commanded the confidence
-and respect of all oil-producers. They extended their pipe-lines to
-practically every producing well and established a transportation
-system which serves the industry to-day as no other on earth is
-served. The advantages of the modern pipe-line to the oil-producer are
-obvious. A pipe-line connection to a producer’s tank ensures prompt
-service and a cash market for his product at all times. The small line
-connected with his tank conveys the crude oil therefrom, either by
-gravity or by means of a pump, into a receiving tank of the gathering
-or field lines of the pipe-line system, from which it is pumped into
-the main trunk pipe-lines to the refineries.
-
-[Illustration: OIL PIPE-LINE CONNECTIONS IN THE AMERICAN FIELDS]
-
-The system by which the producer can have payment for his oil at
-any time, for he is credited with its value when it once enters the
-pipe-line, is the perfection of simplicity, accuracy, and efficiency.
-The pipe-line of which the gathering or field lines are composed varies
-in diameter from 2 to 8 inches, the joints of which are screw threaded.
-The main trunk lines are from 6 to 10 inches in diameter, and pumping
-stations, supplied with powerful plant driven by steam or internal
-combustion engines of the Diesel type, are located at suitable points
-of the line. According to the nature of the crude oils to be passed
-through the pipe-line must the erection of pumping houses be governed:
-for instance, in handling the heavy Californian or Mexican crudes, the
-pumping stations have to be much nearer each other than when a lighter
-crude oil is transported. Some of the heavier oils have, in fact, to be
-heated before they enter the pipes at all.
-
-As already mentioned, the total oil transported to-day by the American
-pipe-line system exceeds half a million barrels daily. The lines
-themselves--all laid, of course, below ground--are so unobtrusive and
-do their work so quietly and unseen, that they attract no attention,
-and yet they are vastly important to not only the business of the
-States, but to those myriads of consumers abroad.
-
-It is, in fact, impossible to over-estimate the importance of this
-up-to-date system of oil transportation in the United States as it
-exists to-day. To show the impossibility of conducting the present-day
-American petroleum industry without the use of pipe-lines, let me give
-a few facts. The large oil-tank cars, which are not unusual sights on
-our railways, hold, at the maximum, about 25 tons of oil. Excluding
-California altogether from these illustrations, the half-a-million
-barrels of oil which are transported daily in the States by pipe-lines
-would fill over 2,500 tank cars. Taking 25 cars to make up a freight
-train, it would require fully 100 trains daily to transport the oil
-that now goes by pipe-line, and inasmuch as it is estimated that the
-oil on the average is transported overland (or, rather, under-land)
-1,000 miles, it would require, approximately, 200,000 railroad tank
-cars to do the daily work in connection with the transport of oil in
-the United States east of the Rocky Mountains, for the average movement
-of tank cars is 30 miles daily, and all empty cars must be returned.
-No less than 8,000 railroad engines would be required to do this work,
-which, on the face of it, is a railway impossibility.
-
-I am afraid I have devoted more space to the question of pipe-line
-transport in the States than the confines of this little work warrants,
-but the subject is one of great interest to all who would know the
-magnitude of the organization which is comprised in the limits of the
-petroleum industry.
-
-The United States, however, is but one of the large oil-producing
-countries where the pipe-line system for the land transport of oil has
-become the backbone of transport. In Russia, for instance, the fields
-of production are situated hundreds of miles from the exporting ports,
-and, following upon the principles which obtain in the United States,
-the pipe-line system had, perforce, to be adopted. In this respect,
-however, Russia has still a great deal to learn from our Western
-friends, and the conservative policy which permeated the Russian Empire
-as a whole has precluded the making of much headway.
-
-The Russian oil-fields--those of Baku and Grosny--are situated at great
-distance from the coast, and the necessity of connecting both fields
-with the export port of Batoum, on the Black Sea, has frequently been
-put forward as a project offering the one solution of the difficulties
-attending the retention of a large export oil trade. The Grosny
-pipe-line is still a scheme for future solution, but that affecting
-Baku has been solved by the laying of a pipe-line from Baku to Batoum.
-This line, which is approximately 650 miles long, runs direct between
-the two oil centres and, assuming it operates 24 hours in the day, has
-a capacity of transporting over 3,000 tons of oil daily. Inasmuch as
-the Russian oil refineries are at Baku, the line is used solely for
-the transportation of the refined products. The line itself is laid
-alongside the railway line of the Transcaucasian Railway, at a depth of
-4 feet, but many strange stories are related as to the tapping of it at
-various points, and a lucrative trade being done in the oil so caught.
-
-When normal conditions return to Russia and the petroleum industry
-rights itself, Russian petroleum products will again come on the
-international markets, and in this respect the Grozny oil will be able
-to secure an outlet via Novorossisk.
-
-Roumania can also boast of a main trunk pipe-line for refined products
-from the inland refineries direct to the port of Constantza. This
-important project, which has been carried out practically by the
-Government itself, was just about ready for service when the European
-War broke out: it has, therefore, had little time in which to display
-its practical use to the petroleum industry at large. When one
-recollects that Roumania’s future, so far as the petroleum industry
-is concerned, lies in the direction of the building up of its already
-established export trade in petroleum products, the necessity for
-such a trunk pipe-line to the seaboard has been obvious for many
-years. Unlike the case of the United States, there are no interesting
-events to recall which delayed the advent of this new form of land oil
-transportation. There is only one oil pipe-line of any considerable
-length in the United Kingdom and this runs across Scotland from Old
-Kilpatrick (on the west) to Grangemouth (on the east coast), its
-terminal being in close proximity to the naval base at Rosyth. The
-line, which is 36 miles long, was laid to circumvent the activity of
-enemy submarines, but was only completed in November, 1918, after the
-conclusion of the European hostilities.
-
-The one other important oil-pipe-line which calls for mention is that
-connecting the oil-fields of Persia with the coast. In this scheme, the
-British Government is heavily interested, and, though there has been
-much criticism of its action, there is no doubt that, in due time, the
-Persian fields will play an important part in the supply of petroleum
-products to England, and, in that connection, the Persian pipe-line
-must naturally prominently figure, since, without it, there would be
-numerous difficulties to be contended with in getting the oil to the
-coast.
-
-The carrying of large quantities of petroleum products over the seas of
-the world is a subject which has taxed the minds of experts quite as
-much as that of land transport. For many years it was the rule to ship
-petroleum products overseas in the ordinary barrels (approximately, 42
-gallons each) to the consuming countries. It was a costly business,
-for, apart from the initial cost of the barrels themselves, they
-took up a very considerable space on the vessels, which was not
-proportionate with the quantity of oils carried. Leakage also played
-a very important rôle in this ocean transport, and, generally, the
-principle left much to be desired. The _Atlantic_ was doubtless the
-first vessel designed to carry petroleum in bulk from America, but
-records show that some years previously--in 1863--a Mr. Henry Duncan,
-of Kent, sent the first oil-carrying vessel to Europe. The vessel,
-however, never completed her voyage, for she was lost in the Gulf of
-St. Lawrence, just as she was starting on her trip across the Atlantic.
-The _Charles_--quite a small vessel--also played a part in the early
-days of bulk oil transport across the Atlantic, for this steamer was,
-I believe, the first to employ iron tanks for the bulk transport of
-petroleum. After these first few attempts to convey petroleum in
-bulk from continent to continent, tank vessels steadily wiped the
-barrel-carrying boats off the seas. It was found that not only did oils
-carried in bulk take up but one-half the space of those in barrels,
-but the cost of the oak-staved barrels themselves (usually 5s. each)
-was obviated. At first, sailing ships were adopted to meet the newer
-requirements, but later, vessels propelled by steam were introduced.
-
-At first the shipbuilders had nothing to guide them in the shape of
-practical experience of bulk oil carriers, but, from small things,
-a great ocean trade in bulk petroleum products soon grew. It is
-interesting to note the enterprise which English shipbuilders displayed
-in this new method of handling petroleum for ocean transport, for
-during at least two decades the vast bulk of construction of oil
-carriers took place in English shipbuilding yards. The opening of the
-Far Eastern fields of production led to the construction of a large
-number of oil tankers--each of increasing size--for Messrs. M. Samuel
-and Company, and these were named after various shells. The fleet of
-“Shell” tankers to-day ranks as one of the finest in the world, and
-forms the connecting link between the prolific oil-producing properties
-of the “Shell” Transport and Trading Company, Ltd., in the Far East,
-and the demand for petroleum products in this and other countries, the
-vessels themselves being owned by the Anglo-Saxon Petroleum Company,
-Ltd., one of the influential owning interests in the wide ramifications
-of the “Shell” Company.
-
-For several years the oil tanker _Narragansett_, owned by the
-Anglo-American Oil Company, Ltd. (London), held claim to being the
-largest bulk oil carrier in the world, for the good ship had a capacity
-of nearly 11,000 tons of products. The size of this vessel may be
-judged from the fact that she had a length between perpendiculars
-of over 510 feet, with a 63 feet beam, while her moulded depth was
-42 feet. This vessel, which marked a distinct step forward in oil
-tanker construction, belonged to Lloyd’s A1 three-deck class. The
-Anglo-American Oil Company has shown its belief in oil fuel for ocean
-power purposes by contracting for internal combustion-engined tankers,
-and the first of this class was launched in November, 1919.
-
-[Illustration: ONE OF THE MAMMOTH TANKERS OF THE EAGLE OIL COMPANY’S
-FLEET]
-
-It was left to the enterprise of the Eagle Oil Transport Company--that
-important concern associated with Lord Cowdray’s immense oil
-organization for handling Mexican petroleum products--to make what
-will ever go down as the most bold policy of increasing the size of
-oil tankers by 50 per cent. upon all predecessors. Some six years ago,
-just when the Mexican fields were commencing to pour forth their flood
-of oil for the world’s requirements, the Eagle Oil Transport Company
-included in its programme of activities the building of an immense
-fleet of oil tankers, and it was decided that a number of these should
-each have a capacity of 15,000 tons of petroleum products. There were
-many who asserted that the limit to the size of oil tankers had been
-reached, but, undaunted, the Company went forth with their policy.
-It was a bold stroke, yet a successful one, for not only have the
-vessels proved to be very practical, but they have taught a lesson in
-economy of ocean transport which has been seriously taken to heart by
-practically all engaged in ocean oil transport.
-
-I had the honour of being one of the invited guests at the launch
-of the first of these gigantic oil carriers, and of subsequently
-experiencing a trip in the mammoth floating “tank.” The vessel behaved
-admirably at sea, and in a chat with the designer, I recollect asking
-if there were any reason to believe that the limit in size had been
-reached. The reply was pointed: “So long as we can have loading and
-discharging berths large enough to enable such large vessels to be
-manipulated, we can easily go beyond the present size.” Events have
-proved that the policy adopted by the Eagle Oil Transport Company was
-justifiable, for already a new oil tanker, the _San Florentino_, has
-been built, having a capacity of over 18,000 tons.
-
-Before leaving this interesting subject of ocean oil transportation,
-I should like to emphasize the distinct step forward which is marked
-by these latest oil tankers. To-day, we have entered the era when
-oil fuel has passed its experimental stages and become one of the
-greatest boons to those associated with the navigation of the seas.
-The ease with which oil fuel is handled is remarkable, for vessels of
-the largest size--that is, those using oil instead of coal for power
-purposes--could replenish their stores within a few hours at any oil
-port. In the transport of petroleum by the modern tankers, the taking
-on board of a full cargo is accomplished in about a single day, thanks
-to the most improved means of pumping oil from the shore tanks through
-flexible pipes. The great oil tankers trading between this and other
-countries and Mexico, load up off the Mexican coast by means of a
-submarine pipe-line, and, reckoning but fourteen return trips per
-annum, it will easily be apparent what immense stores of petroleum
-can with ease be brought to the centres of consumption. Compare this
-with the primitive methods of transport in barrels, and it will be
-readily seen with what rapidity the hands of progress have moved during
-comparatively recent years.
-
-The vast majority of oil tankers to-day, true to their calling,
-derive their power from oil, for they burn it under their furnaces,
-and, therefore, are not liable to those tedious delays so inseparable
-from the use of coal, and should severe storms beset their passage in
-Mid-Atlantic, then a little oil pumped overboard will quell the most
-turbulent sea and permit a safe passage onward.
-
-It is evident, however, that the motor-engined oil tanker will be the
-order of the future, for already vessels are being built which utilize
-oil fuel internally--a much more economical process than burning it
-under boilers.
-
-
-
-
-CHAPTER VI
-
-PETROLEUM AS FUEL
-
-
-So much has been written of late as to the use of petroleum as fuel
-for the purposes of steam-raising, that the reader is bound to be more
-or less _au fait_ with the subject. It is, of course, one of vast
-importance, and during the next decade is certain to receive far more
-consideration than it has hitherto done, owing to the general desire
-that our coal wealth shall be conserved as much as possible. Given the
-one allowance that oil fuel can be procured at anything approaching a
-reasonable figure--and there is no reason why, in normal times, this
-reasonable price should not be prevalent all over the world--then
-petroleum offers many advantages over its older competitor, coal. The
-ease with which large quantities can be handled, the simple method of
-operating anything which is fired by petroleum as fuel, and the fact
-that its heat-giving units are far higher than those of coal, will ever
-be the chief factors governing its popularity.
-
-Many years ago, fuel oil made its serious début, but at that time the
-supply of the product was very uncertain, and, consequently, progress
-in passing from the old to the new form of power-raising was slow.
-To-day, however, matters have materially changed. The crude oil output
-has been immeasurably increased, and many fields whose production of
-crude oil is essentially suited for fuel purposes have been opened up.
-In this respect, the oil-fields of Mexico have no parallel, and it is
-recorded that, once these fields are provided with adequate storage and
-transport facilities, they can easily supply the whole of the fuel oil
-necessary for the world, and at the same time have immense quantities
-to spare.
-
-But, though the subject of petroleum as fuel has aroused much attention
-for some years, there is still an erroneous idea prevailing as to what
-really is fuel oil. A word or two on this question will, therefore, not
-be without interest. Fuel oil is that portion of crude oil which is
-incapable of giving off by the process of ordinary distillation those
-lighter products of petroleum known as motor spirit, illuminating oils,
-or lubricants. It is, in a word, the residue of distillation which is
-unsuitable for refining purposes. It represents a black, tarry liquid,
-and is, of course, minus those fractions that go to produce the refined
-products. Many there are who refer to crude oil as fuel oil, but this
-is a misnomer, though crude oil, in many instances, is utilized for the
-purposes of fuel. In this chapter, however, when I speak of fuel oil,
-I am referring not to the crude oil as it comes from the ground (and
-which has a comparatively low flash) but to the article of commerce,
-the residue of distillation, which is the real article--fuel oil.
-
-The headway which fuel oil has made during the past few years has been
-remarkable, though it is safe to say that its general use is still in
-its infancy. In no matter what capacity it has been tried as a heating
-or steam-raising agent, it has proved itself capable of withstanding
-most successfully the most stringent tests, and has convinced all who
-have given the question serious consideration that it holds numerous
-advantages over coal, yet has no drawbacks. Perhaps the most recent
-impetus which has been given to the use of fuel oil is that following
-the introduction of it, and now its general adoption, throughout the
-units composing the British Navy. On land, however, it has for some
-years achieved marked distinction. Especially is this the case in
-regard to its use on locomotives, the United States railways alone
-consuming last year over 6,000,000 tons of fuel oil. In the realms
-of industry, fuel oil, too, is claiming the attention of those large
-industrial establishments, and to-day is largely used for creating
-intense heats, such as are necessary in hardening, annealing, melting
-and smelting, rivet heating, glass-melting, etc.
-
-Let me first of all refer to the use of oil fuel for marine purposes.
-Fifteen years ago, its use was very strongly advocated by Sir Marcus
-Samuel, Bart., for marine purposes, and he approached the British
-Government in an endeavour to get it taken up. Matters moved very
-slowly, but eventually oil fuel was adopted, and Admiral Sir William
-Pakenham asserts that it was due to the unceasing efforts of Sir Marcus
-Samuel that the Admiralty vessels constructed during the war were
-oil burners. The largest of this new class of vessels is the _Queen
-Elizabeth_. Oil fuel is now largely used in place of coal on our great
-liners, vessels like the _Aquatania_ and _Olympic_ having gone over to
-its general use.
-
-There are, of course, many reasons which have commended fuel oil to
-the experts as a substitute for coal. In the first place, inasmuch
-as one ton of fuel oil is equal to more than one-and-a-half tons of
-coal, the radius of action of units fitted for utilizing fuel oil is
-increased over 50 per cent.--I speak from the point of view of bunker
-weight. Again, one ton of oil occupies considerably less space than
-an equivalent weight of coal, while this advantage can be materially
-increased--as is now the usual practice--by carrying the fuel oil
-in double-bottom tanks. Then the bunkering question is one of vital
-moment. Fuel oil can be taken on board under far cleaner conditions,
-and at a greatly accelerated rate, than would be possible with coal.
-There is no arduous manual labour required. Once the hose connections
-have been made, the fuel oil is pumped on board at the rate of hundreds
-of tons an hour, and a few hours suffice to re-fuel our largest
-battleship. But it is when bunkering at sea is required that fuel oil
-further emphasizes its immense advantages. This question was some years
-ago one of the problems of naval strategy: to-day it is regularly
-carried out in the simplest possible fashion, hose connections to a
-standing-by oil tanker being all that is required.
-
-Another advantage of fuel oil is that materially increased speed can
-rapidly be attained, for, with fuel oil fired furnaces, the ship’s
-boilers can be forced to nearly 50 per cent. above normal rating
-without that great strain on the personnel which would be essential
-in burning coal under forced draught. Then there is the great saving
-of labour effected when burning fuel oil, the stokehold staffs being
-reduced by quite 90 per cent. The fuel oil is automatically fed to the
-furnaces and mechanically fired, the maximum heat of the oil burners
-being attained within a few minutes of starting. But the absence of
-smoke when the battleship is proceeding at full speed is, perhaps, one
-of the most important advantages which the use of fuel oil gives to
-the units of the fleets employing it. The emission of dense volumes of
-smoke, which are ever present on a coal-fired vessel, is quite absent
-when fuel oil is used, and this advantage is twofold, for not only does
-it prevent the giving away of the location of the battleship, but it
-also renders its own gun-fire more efficient.
-
-The advantages attendant upon the use of fuel oil for naval vessels
-are, in the main, also strikingly apparent when oil is adopted for
-the mercantile marine. It is many years ago since the oil tankers of
-the “Shell” Transport and Trading Company, Ltd., commenced to do the
-voyage regularly from the Far East to this country and back without
-an intermediate port of call. To-day, practically every oil tanker
-afloat burns fuel oil. But, of recent date, fuel oil has reached wider
-application by reason of its being adopted on many cargo and passenger
-vessels, and, had the European War not considerably hampered ordinary
-shipbuilding construction, we should have seen ere this a number of
-the largest vessels crossing the Atlantic exclusively running on oil.
-In fact, arrangements have been made whereby many of our Transatlantic
-lines will operate exclusively on fuel oil, which will be taken on
-board in the United States.
-
-[Illustration: TAKING OIL FUEL SUPPLIES ON BOARD]
-
-My friend, Mr. J. J. Kermode, of Liverpool--the well-known fuel oil
-expert--has taken the most prominent part in calling general attention
-to the immense superiority of fuel oil over coal, and it is due to
-this gentleman’s untiring energies that not only does our Navy to-day
-use fuel oil to such an extent, but that those responsible for ocean
-passenger transport have taken the matter up so seriously. There are
-three general headings under which fuel oil use will affect transport
-costs. They are as follow: (_a_) by increased passenger or cargo
-capacity, (_b_) by increased speed, and (_c_) by a great reduction in
-running costs. As to the increased capacity, I have already shown that
-fuel oil can be stored in considerably less space than coal, and the
-simplicity of both bunkering fuel oil, and using it on vessels, has
-also been touched upon. With reference to the increased speed which
-vessels utilizing fuel oil can attain over those running on coal, I
-have a concrete example in front of me. Two sister ships of the Eagle
-Oil Transport Company--the _San Dunstano_ and the _San Eduardo_--each
-of 9,000 tons deadweight capacity, are fitted to burn coal and fuel
-oil respectively. Upon a trip carried out under careful observation,
-the weight of fuel consumed worked out as two to three in favour of
-fuel oil, while the indicated horse-power developed showed an 18 per
-cent. improvement in the case of the oil-fired vessel. But the striking
-fact of the comparison is that the _San Eduardo_ made the round voyage
-to Mexico--out and home--eight days quicker than the other, this
-additional speed being solely due to the fact that with fuel oil it
-was possible to maintain consistent speed throughout the voyage--an
-impossible matter when coal is consumed. If space permitted, I could
-enumerate many cases where the results in favour of fuel oil are
-even more strikingly apparent, but I will content myself by briefly
-referring to calculations made by Mr. Kermode, based upon voyages of
-our largest liners: they are sufficiently interesting and suggestive
-to record here. On an average, says Mr. Kermode, to maintain a speed
-of 25 knots, 5,500 tons of coal are consumed upon the voyage between
-Liverpool and New York by one of the mammoth liners; or 11,000 tons for
-the round trip. Some 3,300 tons of fuel oil--which could be stored if
-necessary (and as will frequently be done in the future) in the double
-bottom of the vessel--would, by automatic stoking, do even more work
-than 5,500 tons of coal. Calculating the daily consumption of 600 tons
-of coal now used for 24 hours, this represents about 2,000 tons less
-fuel on a five days’ trip, land to land run, or 4,000 tons less, out
-and home. The utilizing of the vacant space thus saved for merchandise
-would bring in a very handsome income. Of the 312 firemen and trimmers
-now employed for a coal-fired liner, 285 might be dispensed with,
-and occupation found for them under healthier conditions ashore,
-say in handling the additional cargo which would be carried. The
-saved accommodation in this respect could be allotted to third-class
-passengers, of whom at least another 250 could be carried. Our mammoth
-liners are fitted with 192 furnaces in order to produce 68,000
-horse-power (as was the case of the _Mauretania_ and the _Lusitania_),
-and, on the assumption that thirty-two fires are cleaned every watch,
-10,000 indicated horse-power is lost every four hours through burning
-down and cleaning, a quite unnecessary operation with fuel oil. Figures
-such as these show the startling possibilities of fuel oil for marine
-purposes.
-
-[Illustration: TYPICAL LIQUID FUEL BURNERS
-
-THE KERMODE STEAM BURNER]
-
-[Illustration: KERMODE’S AIR JET BURNER
-
-    In the steam burner, the oil enters through B, the valve G
-    giving it a whirling motion. The steam goes round the cone A.
-    _F_ is the air cone, the amount of air being adjusted by the
-    openings D by means of a perforated strap E. In the air jet
-    burner the oil enters at A. The previously heated air enters at
-    the branches B and C, and as the air passes C it meets the oil
-    as it passes the control valve operated by E.]
-
-But it is on land, as well as on sea, that we find fuel oil rapidly
-making headway, for, as far back as 1889, hundreds of the Russian
-locomotives went over to the burning of a petroleum residue. This
-was the first practical application of fuel oil for railway haulage.
-To-day, nearly 50,000,000 barrels of fuel oil are consumed annually
-by the various railroads in the United States, and, according to
-the official figures I have of the total mileage of fuel oil for
-the past twelve months, the United States oil-burning locomotives
-did journeys aggregating over 145,000,000 miles. Mr. Hall, of the
-American International Railway Fuel Association, is responsible for the
-statement that, owing to the fact that the steaming capacity of the
-engines is materially increased, a locomotive running on fuel oil can
-haul a load of considerably greater tonnage and at a much increased
-speed than would be possible with a coal-fired engine. Many Continental
-railways use fuel oil rather than coal; the Roumanian and Austrian
-State Railways, the Western Railway of France, the Paris and Orleans
-Railway, being a few of the principal.
-
-So far as England is concerned, the use of fuel oil has not made great
-headway, for the reason that, while on the one hand, the majority of
-our great railway systems pass through the coal-producing fields, there
-has, on the other hand, until recently been an absence of organization
-for the supply of fuel oil. The Great Eastern Railway many years ago
-successfully ran oil-fired locomotives.
-
-It is evident that oil fuel will be increasingly used in the future for
-locomotive purposes, and at the time of writing--December, 1919--the L.
-and N.W. Railway are carrying out experiments on express engines, with
-a view to being able to some extent to discard coal.
-
-In our industrial life of to-day there are a vast number of instances
-where fuel oil is rapidly displacing coal: the oil-fired furnace has
-been brought to a stage of perfection, and is being extensively
-and increasingly employed both in this country and abroad in regard
-to metallurgical and industrial processes. Without going into detail
-respecting the numerous spheres in which the new fuel finds profitable
-employment it is safe to say that these are being extended every year.
-
-[Illustration: OIL FUEL FOR MARINE PURPOSES
-
-    Arrangement of heaters, filters and pumps for burning oil
-    fuel for marine purposes. The installation is that of the
-    Wallsend-Howden pressure system.]
-
-A wealth of inventive effort has been bestowed in the perfection of the
-burners employed to consume fuel oil. Leaving aside for the moment the
-principles governing the use of oil in the internal combustion engines
-of the Diesel or semi-Diesel type, fuel oil used for the production
-of power is introduced into the furnace in the form of a spray, this
-being accomplished by atomizing the oil in its passage through a
-specially designed burner. Of these burners, there are numerous makes
-upon the market, each of which possesses its own characteristics and
-advantages. The one feature common to all fuel oil burners is the
-arrangement for atomizing the oil fuel into a fine spray, so that
-each particle of fuel shall receive sufficient oxygen to ensure its
-complete combustion. Theoretically, it requires about 14 lb. of air to
-effect the combustion of 1 lb. of oil, and on the thorough combustion
-of the fuel oil depends the efficiency of the furnace. There are
-three distinct methods by which the atomization is brought about, and
-each of these means possesses its advantages and limitations. By one
-method, the fuel oil is atomized by the use of steam; by the second
-method, compressed air is used; while a third system--that of applying
-pressure to the oil supply itself--is sometimes adopted. Steam is the
-method usually employed for stationary boilers and locomotives, for it
-is the simplest to manipulate, and does not call for the employment
-of auxiliary apparatus in the shape of air compressors or oil pumps,
-but most industrial oil furnaces work on compressed air, which gives
-exceptionally good results. There is no doubt that, with the use of
-compressed air, say admitted at a pressure of 80 lb., a saving in
-fuel oil is shown over using steam at similar pressure, but the cost
-of the compressing plant, which must be taken into consideration, is
-sufficient to wipe out the greater part of this advantage.
-
-[Illustration: THE “SCARAB” OIL BURNER]
-
-With respect to the use of the fuel oil direct under pressure, this
-system generally involves the heating of the fuel oil, as well as
-its filtration, the fuel being supplied under pressure by means of
-pumps. The system is extensively employed at the present time on
-marine boilers operating with forced or induced draught, and, in this
-connection, the Wallsend system stands pre-eminent.
-
-Since writing the first edition of this little volume considerable
-advance has been made in connection with the use of oil fuel for
-general power-raising purposes, and much of this expansion has been
-consequent upon the introduction of a new burner--the “Scarab”--which
-is here illustrated. It is the invention of Lieut.-Col. Macdonald, and
-is the outcome of the war. When the Lieut.-Colonel was on service in
-Mesopotamia, he recognized the possibilities of oil fuel, for while
-wood and coal were being transported from India at great cost, oil was
-running to waste on the neighbouring fields of the Anglo Persian Oil
-Company. The Lieut.-Colonel therefore introduced a method of cooking
-by oil fuel, and immediately on his return to England he carried out
-experiments which led to the introduction of the “Scarab” burner. It
-is a simple contrivance, and is practically fool-proof, since there
-are really no parts to get out of order. The oil fuel flows through a
-tube by gravity, while another tube carries air compressed to about
-10 lbs. pressure. The oil and air meet some inches distant from the
-mouth of the burner, and the combustion of the fuel, which is turned
-into a finely atomised spray, is complete. Experiments have been made
-with the burner for domestic purposes, and it has been adopted already
-in several London hotels for cooking purposes, though its general
-application is practically unlimited.
-
-
-
-
-CHAPTER VII
-
-PETROLEUM AS A LIGHTING AND COOKING AGENT
-
-
-From times immemorial, petroleum has been utilized as a lighting
-agent. Fifteen hundred years ago we have records of its use in the Far
-Eastern countries, and in the seventh century one of the Emperors of
-Japan ordered that his temples should be illuminated by the sacred oil
-light. And from that long distant date to the present times, petroleum
-has played a not insignificant part in the provision of artificial
-light throughout the world. For centuries, petroleum, as a means of
-artificial light, had the field to itself, and, though the Ancients
-consumed large quantities for lighting purposes, the apparatus used for
-burning the oil were of a most primitive type, giving results which
-to-day would be considered far from satisfactory.
-
-About the middle of the last century, when the petroleum industry was
-making steady advance in several European countries, and a little
-later, when the United States entered upon its era of oil progress,
-there was marked development in the use of oil for lighting purposes.
-The more modern oil lamp was introduced, and it is worthy of record
-that in one year alone over fifty patents were taken out in the United
-States for oil lamp improvements. The Germans, too, were not behind in
-this respect; in fact, it is very largely due to the numerous German
-improvements that the general governing principles of present-day oil
-lamps became so popular.
-
-There is no doubt that the ordinary oil lamp has often been, and still
-is, unjustifiably condemned for certain defects which are not inherent
-in it. It necessarily demands attention if it is to give a satisfactory
-light, but, unfortunately, this attention is not adequately bestowed
-upon it, and complaints are the result. I have frequently argued that,
-just as it is possible with inattention to make the most improved
-pattern of oil lamp operate unsatisfactorily, so is it possible, with
-a little care and common sense, to get a really good and satisfactory
-light from the cheapest oil lamp obtainable.
-
-In days gone by, the quality of the oil was, in many cases,
-unsuitable for burning in the ordinary lamps; its lighting power
-was very inferior, and it gave off a distinctly unpleasant smell.
-To-day, however, the illuminating oil sold throughout the world is a
-first-class article, and its flash-point has been so raised that it
-can be used freely without there being any suggestion of its lack of
-safety. One still hears of the “dangerous” paraffin lamp, but, to all
-intents and purposes, whatever danger was attendant upon the use of oil
-lamps has long ago departed, though, of course, care must always be
-exercised, a remark which naturally applies to every illuminant. It is
-not within my province to give a series of hints to the ordinary user
-of illuminating oil, but it is well to draw attention to a point which
-is frequently overlooked: that is, to see that lamps should be kept
-well filled. It has been established that the light from an oil lamp is
-greatly affected by the quantity of oil in the reservoir. An increase
-of 20 per cent. can be secured in the illuminating power of the lamp if
-only the oil is kept to a good level in the container. This is due to
-the assistance given to the capillary action of the wick by the higher
-level.
-
-The advent of gas, and, at a later period, electric current, for
-illuminating purposes has, to an extent, restricted the use of oil as
-an illuminant, yet the reader will be surprised to learn that at least
-2,000,000 oil lamps are nightly lighted throughout Great Britain. The
-inhabitants of the majority of our villages have to fall back upon oil
-lamps after nightfall, and even in remote spots where enterprising gas
-companies have laid gas mains large numbers still keep faith with oil,
-no doubt by reason of its cheapness in normal times.
-
-The greatest improvement made in regard to oil lighting has been in
-connection with the introduction of the incandescent mantle. As a
-result of this innovation, several elaborate designs of lamps have
-been placed on the market, and to-day oil is frequently used in large
-residences in preference to the more modern illuminants. This is due,
-without doubt, to the fact that oil light is particularly soft, and,
-while giving a great illuminating power when consumed under the best
-conditions, lacks that dazzling brilliancy which causes injury to the
-eyes.
-
-One of the earliest methods of utilizing petroleum under an
-incandescent mantle was the Kitson system, according to which
-illuminating oil is compressed to about 50 lb. per square inch in a
-suitable vessel, forced through a soft brass tube of very small bore
-into a heating chamber, and, subsequently, through a needle orifice to
-a Bunsen burner. The Kitson system, which has found many adherents in
-the United Kingdom and abroad, is particularly adapted for lighthouse
-illumination, and in such cases where large units are essential. It is
-interesting to record the fact that for some time one of London’s main
-West-end thoroughfares was illuminated by incandescent oil lamps, and,
-though they are now superseded, no tangible reason was given as to why
-these highly economical means of illumination were ever removed.
-
-Space forbids my referring to the various designs of oil lamps on the
-English market to-day: they may be counted by their hundreds, while
-still a larger number of those which have either been unsuccessful or
-have found no sale may be found in the records of the Patent Office.
-
-During comparatively recent times, devices have been brought forward
-whereby remarkably good results have been achieved by the use of
-gaseous vapour for portable lamps. In these cases, motor spirit is
-vapourized and used under an incandescent mantle. The best known
-of these lamps is the “Petrolite.” In this lamp, a porous stone is
-impregnated with suitable hydrocarbons--motor spirit--and a current
-of air is introduced, the necessary draught being provided by the use
-of a fairly long chimney. The great advantage of the “Petrolite” lamp
-is that of its perfect safety, for if by any chance the lamp becomes
-overturned and the chimney displaced or broken, the draught ceases, and
-with it, the generation of the inflammable vapour; the lamp, therefore,
-immediately going out.
-
-But while this method of utilizing motor spirit for illuminating
-purposes has been adopted to a very large extent by means of portable
-lamps, a greater field has been developed both in this and other
-countries in connection with the domestic and industrial use of petrol
-air-gas for lighting purposes. These apparatus in the main possess
-but slight differences. The essential principle of each is that motor
-spirit is carburetted and then, in the form of an oil gas, conducted
-through pipes in the same manner as coal gas is burned, to the rooms
-in which it is required. The carburetted air-gas is automatically
-produced, and the small cost at which these automatic plants can be
-supplied has rendered this system of lighting deservedly popular.
-Its great economy also is an important point, for 1 gallon of motor
-spirit will yield almost 30 cubic feet of vapour. This vapour, in
-order to form a lighting agent, is mixed to the extent of over 98 per
-cent. air and less than 2 per cent. petrol vapour, so that 1 gallon of
-motor spirit will produce, approximately, 1,500 cubic feet of air-gas.
-The plants, which are usually worked by a small hot-air engine (or,
-alternately, by the use of weights), supply only the demand created,
-and their control is automatic perfection.
-
-[Illustration: THE ANGLO-AMERICAN OIL COMPANY’S OIL COOKER]
-
-To-day, petroleum plays quite an important part in heating
-arrangements, and several stoves are upon the market which burn the
-ordinary illuminating oil. The prettily designed heating stoves of the
-“Perfection” or “Reform” make are largely in use, the efficacy and
-economy of these being responsible for their popularity. Various makes
-of oil cookers are also in large demand. These range from the small
-variety like the “Primus” stove, which burns illuminating oil under
-pressure, to the oil cooking stoves of the Anglo-American Oil Company,
-Ltd., which are quite competent to meet the requirements of practically
-any household. These latter stoves consume illuminating oil by means
-of the circular wick arrangement, and are in several sizes, one of the
-best being that containing three lighters. Two of these are under the
-oven, and one at the end can be used for boiling purposes. Speaking
-from several years’ experience of these stoves, I can say that they are
-truly perfection. They are very economical, are easily cleaned, and
-when in full operation give off not the slightest odour. The oven is
-more readily heated than with the coal gas apparatus, and the properly
-diffused heat cooks all kinds of food most readily and perfectly. The
-illustration of the stove given on the preceding page will afford the
-reader a good idea of the apparatus, which deserves to be even more
-popular than it is at present.
-
-
-
-
-CHAPTER VIII
-
-INTERNAL COMBUSTION ENGINES
-
-
-In no other sphere of employment has petroleum made such rapid
-strides during the past two or three decades as those recorded in
-connection with its use in internal combustion engines, and one of the
-most interesting features of modern mechanical engineering is their
-development. The advent and immediate popularity of this kind of engine
-has been responsible for some of the most remarkable conquests of
-mankind over the forces of Nature, for it has brought into being the
-automobile, the aeroplane, the dirigible airship, and a host of other
-inventions. It has also been responsible for quite a new departure in
-ocean transport, for experiments have proved that the largest vessels
-can be very economically operated by means of the internal combustion
-engine.
-
-It might, by way of introduction, be well to explain for the benefit of
-the uninitiated, the meaning of the term “Internal combustion engine.”
-As most of my readers are well aware, the steam, or, rather, to be
-exact, the highly heated water vapour which drives the steam engine,
-is supplied from boilers which are heated by the burning of coal, oil
-fuel, or, sometimes, gas, and such engines might, therefore, be called
-“external combustion engines,” since the fuel is consumed in apparatus
-external to the engine proper. Such a term, however, is not in use
-amongst engineers, and might raise a superior sort of smile if used
-in their presence. It will be readily seen from the foregoing that a
-great deal of weight and apparatus of some complication is required
-before the water vapour which drives the steam engine can even be
-provided.
-
-In the case of the internal combustion engine, the fuel (motor spirit
-or the heavier oils) is introduced directly into the engine and there
-vapourized and mixed with air so as to form an explosive mixture, so
-that all boilers, with the necessarily complicated systems of piping,
-etc., are done away with. It needs no imagination to understand the
-enormous saving of weight and space resulting from this elimination of
-the boiler, and of the room which it would occupy.
-
-The latter-day demands for the provision of lighter and yet lighter,
-as well as space-saving propelling machinery for submarines, airships,
-aeroplanes, motor-cars, etc., especially during the war, have
-enormously stimulated the development of the engine which consumes its
-own fuel, and which is known as the internal combustion engine. A very
-wide field has thus been opened out for the exercise of the engineer’s
-ingenuity, and he has availed himself to the full of the opportunities
-thus created, never failing to rise to the occasion when fresh demands
-have been made upon him.
-
-In these circumstances, it is not at all surprising to find that
-numerous firms have given considerable attention to the manufacture
-of the internal combustion class of engine, and many varieties,
-for a multiplicity of purposes, are upon the market. The limits
-of space effectively prevent my detailing the list of even the
-largest manufacturers; I will therefore content myself by referring
-to but one firm--Messrs. Vickers, Ltd.--who are now the largest
-manufacturers in the Kingdom. This progressive firm has grappled with
-the internal combustion engine problem from the earliest stages of the
-petrol engine to the latest forms of the heavy oil engine and its
-remarkable developments, and a large section of their establishment at
-Barrow-in-Furness is, and has long been, set aside exclusively for the
-design and manufacture of the heavy oil internal combustion engine. A
-very large staff of expert engineers has been selected for the work,
-while experiments with a view to improvements being effected in details
-are continually being conducted in the establishment. The result is
-that the development of this engine at the Barrow works has been
-attended with the highest success, a fact which is not widely known to
-the general public.
-
-I take it as a great compliment that permission has been given me in
-this book to refer somewhat in detail to the achievements of Messrs.
-Vickers, Ltd., in this respect, for, hitherto, publicity in connection
-with this section of the firm’s operations has been strictly withheld.
-One of the latest and, it might well be said, the most important
-developments in connection with Messrs. Vickers’ activities, is the
-Vickers patent system of fuel injection, which enables an engine of the
-Diesel type (that is, using heavy oil) to be successfully run without
-the use of an air compressor for injecting the fuel into the engine.
-Before the introduction of this system, an air compressor, with its
-attendant complication and weight, had to be used for the introduction
-of the fuel into the engine. The elimination of this compressor has
-resulted in considerable economy in weight, space, and attendance,
-which, it will readily be seen, is a step in the right direction,
-whilst the efficiency of the engine has also been improved. The
-disadvantages attendant upon the use of the air compressor were early
-comprehended by Messrs. Vickers, and they have spared no efforts (nor
-expense) in developing the system which has led to its elimination.
-
-The reader will require no knowledge of the subject to understand that
-the question of fuel consumption is one of the highest importance
-in any engine system, and, in regard to this point, Messrs. Vickers
-have made a special study, with the result that whilst the ordinary
-consumption in a Diesel engine with air compressor is ·41 lb. brake
-horse-power an hour (or 184 grammes _par force de cheval_), that firm
-have been able to reach the low figure of ·376 lbs. B.H.P. an hour (or
-·170 grammes _par force de cheval_).
-
-As one might expect, Messrs. Vickers, in bringing their engine
-to its present state of perfection, have, perforce, had a varied
-experience with fuel oils--and a considerable one, too,--for they have
-experimented with oils from all the well-known producing fields, and
-find that, under their system, practically any fuel oil which can be
-made to flow may be utilized in their engines--a fact which, in its
-importance, speaks for itself. The physical properties of the oils used
-by them have, naturally, differed very considerably. For instance,
-specific gravities have varied from ·810 to ·950 flash points from 100°
-Fahr., to upwards of 250° Fahr., whilst the viscosities, which the lay
-mind might well be excused for thinking of as “degrees of stickiness,”
-have varied from that of the ordinary kerosene (illuminating oil) to
-the thick asphaltic fuel oil which comes from Mexico. Readers may judge
-from this of the painstaking and difficult experiments that have been
-carried out in the Barrow works.
-
-The advantages derivable from the use of the Vickers system could not,
-obviously, be withheld from general use, and the firm have upwards of
-twenty licensees now manufacturing internal combustion engines under
-their designs. This fact, though not familiar to “the man in the
-street,” is known in the manufacturing world.
-
-[Illustration: 900 B.H.P. LOW DUTY VICKERS ENGINE FOR OIL TANK VESSELS]
-
-[Illustration: BACK VIEW OF ENGINE]
-
-Already a very large number of their engines have been constructed,
-the approximate brake horse-power produced by same being upwards of
-337,600. These engines are of various sizes, ranging from 200 to 2,000
-horse-power. The cylinders vary in diameter from 10 to 29 inches, and
-are arranged to work in groups to suit the power required, and may be
-either two-stroke or four-stroke cycle. The high temperatures set up in
-starting the engine are sufficient to ignite the fuel, the introduction
-of which in a finely-divided condition has been the object of so many
-experiments at Barrow; and so successful in this direction have Messrs.
-Vickers been that they are now able to deal satisfactorily, by careful
-adjustments of the engine to suit the various fuels, with the most
-troublesome oils.
-
-As already referred to, the elimination of the air compressor
-constitutes the chief improvement embodied in the Vickers type of
-engine, seeing that the greatest worry which the Diesel engineer has
-had to encounter has been this very compressor. Needless to remark,
-therefore, this feature alone strongly recommends the new system to the
-experienced man. Further, the power required to drive the compressor
-above-mentioned is considerable, so that economy is not one of the
-least results due to its absence.
-
-The principal advantages that can be claimed for the Vickers engine may
-be summarized as under--
-
-    1. Safety in working. (Many accidents have been due to the use
-    of the air compressor.)
-
-    2. Weight is saved.
-
-    3. Space is saved.
-
-    4. Lower air compression in the cylinders for ignition, and
-    economy in air for starting the engine.
-
-    5. Reduction in first costs; and
-
-    6. Reduction in upkeep expenses.
-
-[Illustration: 900 B.H.P. HIGH DUTY REVERSING ENGINE FOR LIGHT CRAFT]
-
-[Illustration: 1,250 B.H.P. LOW DUTY VICKERS MARINE ENGINE FOR OIL TANK
-VESSEL]
-
-With regard to (4), the low compression claimed is rather interesting,
-as Messrs. Vickers have successfully demonstrated that, although a high
-compression temperature is necessary in the ordinary Diesel engine with
-the usual air spraying compressor, a much lower degree suffices for
-their mechanical injection system, whilst there is a greater certainty
-of ignition of the fuel on its first introduction, even with the
-existence of lower compression in the cylinder. The reason of this is
-that the spraying air used in the ordinary Diesel is usually compressed
-to about 60 atmospheres (900 lb. per square inch). What happens when
-air spraying is practised is this. When the cold air carrying the very
-high pressure above mentioned enters the cylinder, it necessarily
-expands, owing to the lower temperature already existent there, and
-such expansion chills the whole mixture, frequently preventing ignition
-on the first introduction of the fuel.
-
-Under the Vickers system of mechanical fuel injection, there is,
-of course, no introduction of very highly compressed air, and,
-consequently, first ignition is rendered easier. From this, it will
-at once be seen that an oil possessing a high flash point can be more
-easily burned in the Vickers engine than in the ordinary Diesel, with
-the necessary adjunct of an air compressor. Provision is also made
-(should the type of fuel used require it) for a higher temperature of
-compression, and such oils are, therefore, much more easily dealt with
-than in the ordinary Diesel engine.
-
-From what I have already said, it will be evident to the reader that it
-is only a question of time for air spraying, with its attendant use of
-the compressor, to become a thing of the past.
-
-The mechanism involved by the adoption of the new system of fuel
-injection developed by Messrs. Vickers is exceptionally simple. It
-consists of a small fuel pump, such as is ordinarily used for pumping
-fuel, a reservoir or accumulator of novel form to retain the charge,
-and a valve with a special nozzle to admit the fuel in the form of a
-fine spray into the cylinder. The accumulator, I may here mention,
-is merely a tube, flattened slightly on the sides, and of sufficient
-length, when the oil is forced into it, to enable it to yield and store
-up a charge of fuel at the required high pressure, as explained in the
-next paragraph.
-
-The principal feature of the system (and the secret of its great
-success) is the very high pressure at which the oil is injected into
-the cylinder. This pressure is kept up at about 4,000 lb. the square
-inch, so that the oil fuel, when it enters the cylinder and encounters
-the hot compressed air therein, is in the form of a very finely
-atomized mist, a conjunction of circumstances most favourable for
-ignition. As in all great inventions, the simplicity of the arrangement
-is not the least of its merits.
-
-This somewhat rough, yet brief, outline will suffice to explain the
-astonishing success of the Vickers heavy oil engine, but, if the whole
-history of these (and other) noteworthy experiments could be written,
-a highly interesting story would be produced, showing indomitable
-perseverance in the face of discouragement, difficulty, and very heavy
-expense.
-
-I have avoided touching upon the ordinary kerosene engines, for I
-imagine they are too well known to need more than passing reference
-here; nor have I gone into the details concerning the advent of the
-ordinary Diesel engine, which was a German invention.
-
-I have preferred rather to deal with a British invention which is
-already revolutionizing oil engine construction generally, and which,
-obviously, has limitless fields open to it.
-
-
-
-
-CHAPTER IX
-
-PETROLEUM IN ENGLAND
-
-
-There will be no chapter in this little treatise which will be more
-carefully perused than the present one, for the subject is of direct
-interest to every reader, whether actually associated with the search
-for oil or not. To-day, as I have already mentioned in another chapter,
-this country is dependent for practically the whole of its petroleum
-requirements upon foreign oil-producing countries, and though ample
-evidence is forthcoming to suggest that there are possibilities of
-obtaining liquid oil in England--in fact, many years ago this was
-actually obtained in not inconsiderable quantities--it is very strange
-that only recently have serious efforts been made in the direction of
-systematic search for the valuable liquid.
-
-That large quantities of petroleum can be produced in this country is
-agreed by all who have given the subject more than passing thought;
-the question is, by what means shall this production be brought about.
-While it is problematical as to the amount of commercial success which
-will attend the present search for liquid oil, though those who are
-most competent to judge believe that large stores of liquid oil will
-be found, it is already certain that there are vast possibilities in
-England for the production of petroleum from the treatment of the
-bituminous shales which freely abound in many parts.
-
-It will be seen, therefore, that the subject really divides itself
-under two heads, and it is with the first of these--that of the
-possibilities of finding liquid oil reserves in commercial quantity in
-this country--that I will now proceed to deal. For this purpose, it is
-better that we divide the country into three zones--western, middle,
-and eastern. The western zone will include the whole of England between
-the third meridian of West Longitude and the Irish Sea, the Bristol
-Channel, and the North Atlantic. It will be bounded on the north by a
-line running near Whitehaven to the mouth of the River Tees, and having
-the English Channel as its southern boundary. In this zone, the most
-northern occurrence of petroleum is found at Whitehaven, Cumberland,
-and the next is found on the Lancashire coast. Other indications are to
-be found in Denbighshire and in the northern part of the South Wales
-coalfield.
-
-The occurrences of petroleum in what may be described as the middle
-zone are far more important and numerous than those of the western
-zone. They are important in the physical conditions to which they
-are subordinate, and in their greater productiveness. They are more
-numerous, and their geological position is more in direct relationship
-with later dynamical alterations in the rock structures. In this
-zone occurs the most important occurrence which has so far been
-recorded--I refer to that at Alfreton, in Derbyshire--for it was from
-this natural flow of petroleum over 70 years ago that Dr. Young, the
-founder of the Scottish shale oil industry, manufactured paraffin wax.
-Near Chesterfield is also unmistakable evidence of the presence of
-liquid oil at depth, for considerable quantities have flowed from the
-workings at the Southgate Colliery. In this middle zone, too, are the
-occurrences of petroleum found near Wigan and West Leigh, while flows
-of oil are recorded from several spots round Barnsley and Ilkeston. The
-petroleum find at Kelham, near Newark, some few years ago, is important
-for the reason that the drill in this case, at a depth of somewhere
-about 2,400 feet, struck true petroliferous sands, underlain by dark,
-waxy shales. The oil rock has been proved to consist of loose, coarsely
-grained sand, having all the features of strata in which petroleum is
-ordinarily met with. The great value of this boring is that it has
-demonstrated the fact, so long doubted by many of the best geological
-authorities in Great Britain, that all the geological conditions,
-dynamical as well as historical, are present in this locality for the
-formation and subsequent retention of liquid petroleum, and that,
-as Dr. William Forbes-Leslie puts it, despite all contention to the
-contrary, a true oil-field exists in England.
-
-So far as I am aware, however, North Staffordshire alone, among all the
-places in England, has the distinction of so far having produced liquid
-petroleum in sufficient quantity for refining purposes. It was in 1874
-that oil was discovered in a seam of coal in one of the pits of the
-Mear Hay Collieries, Longton, and a contract was ultimately made with
-a Mr. William Walker, Senr., of Hanley, who erected plant at Cobridge
-for the purpose of refining the oil. I am indebted to Mr. Walker for
-the following facts, though in a general way I have full corroboration
-for them, for it was within a couple of miles from the collieries that
-I was born and spent my earlier days. The seam of coal wherein the oil
-was discovered was one of the deeper seams, and by no means one of
-the best in the district. At that time, the flow produced more than
-5 tons of crude oil per week, and inasmuch as England then was not
-inundated with American petroleums, great possibilities were seen in
-the discovery. But almost before the refining of the crude had settled
-down to be a commercial undertaking, the plans of operation were upset,
-for a serious explosion occurred at the colliery, which rendered
-necessary the closing of the pit. Twelve months later, however, they
-were re-opened, and after the re-sinking had proceeded awhile, the oil
-was found far up the shaft, and in due course the shaft was cleared and
-the mines re-opened. Refining operations were resumed and continued for
-a year or two, when the pits had to be closed on account of the shafts
-shrinking.
-
-However, in the course of a number of years, petroleum appeared in
-another colliery less than a mile from the Mear Hay Colliery, and
-again Mr. Walker secured the contract for the whole of the output. The
-quantity of crude oil found was several tons weekly, and a large stock
-had accumulated when Mr. Walker’s attention was drawn to this new find.
-This time, the supply continued for a longer period, and then again the
-seam of coal in which the deposit occurred had to be abandoned. Thus,
-while the resources of this part of the Charnian axis have not been
-properly tested--for, in the opinion of the colliery owners, it is not
-possible profitably to work coal and oil at the same time--there is
-ample evidence to suggest that, in the not distant future, there may be
-most interesting oil developments in this part of North Staffordshire.
-
-The eastern zone of the country doubtless furnishes the most
-interesting petroleum occurrences in England. Here, the interest does
-not so much depend upon the number of escapes, as upon the promising
-geological conditions subserving the production and possible retention
-of petroleum. According to the investigations of Dr. W. Forbes-Leslie,
-F.R.G.S., whose valuable contribution on the subject of the occurrence
-of petroleum in England forms one of the most important papers ever
-read before the Institution of Petroleum Technologists, the northern
-line of oil occurrences runs from Filey, north-westerly, the principal
-finds being located at Filey, Pickering, and Kirby Moorside. Oil, too,
-has been found at Brigg, in Lincolnshire, at Market-Rasen, Haugmont,
-and Donnington-on-Bain. The line of oil occurrences starts at King’s
-Lynn, on the Wash, and runs south-westwards as far as Cottenham,
-in Cambridgeshire, the principal occurrences being at King’s Lynn,
-Downham, Littleport, and Ely. The information obtained by the bore-hole
-at Kelham, to which I have already referred, is a factor of great
-value when taken into consideration and applied to an analytical
-review of the petroleum seepages in England. It is a positive proof
-that a true oil-bearing stratum underlies the surface rocks, at any
-rate, in one part of the British Isles, and, when it is considered in
-relation with the surface position of the oil escapes on the eastern
-flank of the Pennine Chain, it suggests a possible connection between
-those underground sources of oil and those surface escapes which are
-scattered, seemingly at such random, along the Pennines.
-
-The attempts which were made but a few years ago to develop the
-possibilities of the Heathfield district of Sussex, with a view to
-obtaining commercial quantities of natural gas, were also prompted with
-the idea of maybe striking deposits of liquid petroleum, though it is
-doubtful, both from a geological point of view, and from the nature of
-the natural gas which is there in abundance, whether liquid oil will
-be met with in that part of the country. What has been established,
-however, is the fact that large quantities of natural gas are to be
-found in this delightful part of rural Sussex, and it is a great pity
-that the necessary enterprise has not been forthcoming to permit of
-a really serious development. Some years ago, I motored an American
-oil-man over the gas-fields of Heathfield, and he assured me that, if
-such evidences were found in the States, there would immediately be a
-great boom, and finance would freely flow in to stimulate development.
-But not so with Heathfield, for the opinion is freely held that this
-field is too near our midst for real speculative enterprise. Remove
-it to the wilds of Russia, and British finance would appreciate the
-immense potentialities which to-day lie dormant. For those readers who
-are, perhaps, not conversant with the history of the Heathfield gas
-developments it is well to record the fact that attention to these
-deposits was drawn years ago, when a well was being drilled for water
-on the property of the Brighton and South Coast Railway, near the
-present station. Strong smells of gas prevented working for some time,
-and as these increased it was decided that the better course would be
-to suspend drilling operations. The tubes of the well were partially
-drawn out, and the well sides caved in, yet the gas pressure increased.
-The well was abandoned as a water well, but pipes were attached to the
-cap at the mouth, and a steady pressure of gas was emitted. It was
-decided that, inasmuch as the gas burned with a pure flame, the station
-should be lighted with it. That was over twenty years ago, and to-day
-the well is still producing, and the station is still lighted with the
-natural gas, which needs no refining. Not only so, but a well-appointed
-hotel close by utilizes the gas for lighting and cooking.
-
-A project was set on foot for sinking further wells and piping the
-gas to the southern coast resorts for general use, but lack of
-capital prevented progress being made, and so, to-day, Heathfield,
-like many other centres in the country, awaits the attention of the
-carefully-directed drill to open up its underground wealth.
-
-In August, 1917, the feeling in many parts of the country that the
-Government should take some action in order to develop these latent
-resources became so strong that a Bill was introduced into Parliament
-with this object in view. No attempt was made to progress with it until
-the following October, when a financial resolution was rejected by the
-House of Commons on the question of royalties. An amendment was adopted
-against the payment of royalties to the owners of surface lands who had
-made no attempt to obtain liquid oil, and who, as a matter of fact, did
-not know that it was there. Two months later the Petroleum (Production)
-Bill was dropped.
-
-In March, 1918, however, a most encouraging turn of events occurred,
-for Lord Cowdray, head of the great firm of Messrs. S. Pearson & Son,
-and associated with those influential interests in oil represented by
-the Mexican Eagle Oil Company, the Eagle Oil Transport Company, and the
-Anglo-Mexican Petroleum Company, made offers to the Government which
-were couched in the following terms--
-
-(_a_) For the period of the war to place at the disposal of the
-Government, free of all cost, the services of his firm and geological
-staff for the purpose of exploration and development.
-
-(_b_) If the Government did not wish to risk public money on what had
-to be deemed a speculative enterprise, Messrs. S. Pearson & Son were
-prepared to drill, at their own risk and expense as licensees, subject
-to certain areas being reserved to them. The offer committed the firm
-to an expenditure of, possibly, £500,000.
-
-The public spirited offer of Lord Cowdray was most thankfully accepted
-by the Government and, with a minimum of delay, drilling sites were
-marked out for the commencement of active operations.
-
-Lord Cowdray’s geological staff particularly favoured the neighbourhood
-in Derbyshire, near to which Young made his first discoveries of
-oil, and Chesterfield was selected as headquarters for the new oil
-developments. The first oil well to be drilled in this country was
-commenced in September, 1918, at Hardstoft, near Pilsley, on the
-Great Central main line between Sheffield and Nottingham, and on
-Tuesday, 18th October, the inauguration of England’s oil industry
-took place there in the presence of many oil notabilities. American
-drilling machinery of the percussion type was installed and, in view
-of the great depth to which it was expected the drill would have to
-proceed before encountering commercial quantities of oil, the well was
-commenced with a diameter of 18 inches.
-
-A depth of just over 3,000 ft. had been reached at the commencement
-of June, 1919, at which depth oil production started. The well was
-put on the pump and began its steady yield of a good grade crude oil,
-the production being about fifty barrels per week. Up to the time of
-writing (December, 1919) the well is maintaining its yield.
-
-Other wells have been sunk in the Chesterfield area at Ironville,
-Heath, Renishaw, Brimington, Ridgeway and in North Staffordshire and
-Scotland, but so far the success met with is not promising, though it
-is quite possible that commercial oil may be encountered.
-
-Private enterprise has also commenced the sinking of a well at Kelham,
-Nottinghamshire, near a site where, many years ago, small quantities of
-oil were found in an experimental coal bore. Here, however, no definite
-result has been attained. The Company--The Oilfields of England,
-Ltd.--is operating under a drilling license from the Government under
-which the Government may take over the properties on a valuation should
-commercial oil be found.
-
-Let us now briefly turn to the other aspect of the question of the
-production of petroleum in England--that is, of producing oils from
-the treatment of the bituminous shales. There are several sources from
-which petroleum can be obtained in this country by distillation, and
-these are: (1) oil-shales, (2) coal, (3) cannel coals and torbanites,
-(4) blackband ironstones, (5) lignite, and (6) peat.
-
-Though in the past the oil shales of England have not been recognized
-as possessing great potential value, comparatively recent discoveries
-have proved that at home we have enormous deposits of oil shales of
-remarkable richness. These are, so far as at present proved, situate
-in Norfolk and at short distance from King’s Lynn. Dr. Forbes Leslie,
-F.R.G.S., has for many years carried out a number of tests as to the
-quality and quantity of the shales in the Norfolk field, and as a
-result of his work it has been proved that upwards of twenty miles
-square, there is an area in Norfolk underlaid with rich oil-shales.
-From a geological point of view the shales are remarkable, for they
-uniformly lie within 300 ft. of the surface, several of the seams being
-but a few feet below ground. Their prolific nature may be judged from
-the fact that in sinking test wells to depths of 300 ft. in various
-parts of the field, over 150 ft. of this oil shale has been drilled
-through, and it is thus established beyond all possible doubt that at
-home we have all the materials at hand for a huge home production of
-oil.
-
-The whole of the field has been secured by English Oilfields, Ltd.,
-a company which, by reason of the influential interest behind it, is
-bound to be strikingly successful in its future developments in Norfolk.
-
-The crude oil content of the shales is surprisingly great, for these
-shales yield approximately 60 gallons of oil per ton, or considerably
-more than double as much as the Midlothian shales. Dr. Forbes Leslie
-asserts that there is already proved over 2,000,000,000 tons of shale
-on the properties in Norfolk, and after having carefully inspected the
-whole of the fields on many occasions, I think Dr. Leslie’s statement
-may be taken as very conservative, for after all it is only a question
-of a simple sum of calculation which allows one to arrive at the
-figures above quoted.
-
-Commercial developments have already been commenced on the Norfolk
-fields, and it is safe to assume that they will become of enormous
-National importance, since the production of home oil supplies is
-to-day considered of vast National interest.
-
-The other shales--such as the Kimmeridge shales of Dorset and
-Sussex--are not being worked commercially in spite of strenuous
-efforts, and there remains much to be done before a steady supply
-of petroleum can be counted upon from these sources. Of the other
-possible sources of supply, coal yields too little, and at the same
-time is considered too valuable to be utilized on a general scale;
-lignites are not yet opened for development on a sufficient scale;
-and peat has proved troublesome and expensive to treat owing to the
-difficulty of eliminating the water. This, therefore, leaves cannel
-coals, torbanites, and blackband ironstones, which are closely
-associated and, in numerous cases, easily obtainable. Cannel coal, I
-should explain, differs from the ordinarily known coal on account of
-its being less carbonized; it contains many fragments and particles of
-vegetable matter still showing their natural forms, though flattened by
-pressure. The percentage of hydrogen to carbon is higher in a cannel
-coal than in the bituminous coal, the percentage of inorganic matter is
-usually higher also, and the fracture and general appearance serve to
-distinguish this variety of carbonaceous deposit.
-
-
-
-
-CHAPTER X
-
-PETROLEUM IN THE BRITISH EMPIRE
-
-
-The desire that the British Empire should be self-supporting in every
-possible way has been the predominating idea of our statesmen for
-many years: it is to be regretted, however, that such little progress
-has been recorded in the direction of the achievement of a practical
-result. This remark applies to many commodities, yet to none more so
-than to petroleum and its products. To-day, as much as at any preceding
-time, the Empire is dependent upon foreign sources of supply for the
-vast bulk of its petroleum products. It is true that in the United
-Kingdom there is a growing production of oil from the shale-fields
-of Scotland, but this total represents but a fraction of the large
-quantities of products which are annually required to meet the
-ever-increasing demands in commercial and domestic circles.
-
-At the outbreak of the European War, it was forcibly brought home to us
-as a nation that we were in a position regarding our petroleum supplies
-of absolute dependence upon other countries. The refined products
-were an essential part of the war, for without them it would have
-been impossible to have continued for almost a single day, and yet,
-practically every gallon used had to be transported thousands of miles,
-and from a country which at that time was neutral. To make matters
-even worse, the Continental sources of supply from which we had been
-previously drawing large quantities of petroleum were closed to export,
-for, through the Dardanelles, the Roumanian and Russian export ports
-were effectively shut off from the outside world.
-
-Fortunately for Great Britain, the United States came forward with
-the offer of all the petroleum products required for the successful
-prosecution of the war, and we owe to the United States alone all
-success which has been the natural result of possessing ample
-requirements of petroleum products both on sea and land.
-
-The fact, nevertheless, stands out tragically prominent that we as a
-nation have not developed our own oil resources in a manner we ought to
-have done, although everyone conversant with the oil business has been
-for years advocating the giving of serious attention to this important
-subject. To-day, speculative drilling for petroleum is proceeding in
-England, and it is to be hoped that some success will be ultimately
-recorded, but, inasmuch as I dealt with the question of Petroleum in
-England in the previous chapter, I will at the moment pass over this
-very interesting phase of the problem, and briefly look at the subject
-from an Empire point of view. Under the British Flag, we already
-have, or control, some excellent oil-fields in Burmah, Persia, Egypt,
-Trinidad, and Assam, and each producing steadily increasing quantities
-of crude oil. The Burmah fields have achieved fame mainly owing to
-the very large profits made by the chief operating company--the
-Burmah Oil Company, Ltd., whose head offices are at Glasgow. These
-have of recent years been developed upon most up-to-date lines, and
-the producing limits of the territory greatly extended, until now the
-annual crude oil production is upwards of 1,000,000 tons. The fields
-of Persia are very prolific, and their control to-day is in the hands
-of the Anglo-Persian Oil Company, Ltd., an influential concern largely
-controlled by the British Government, by reason of the investment of
-large sums of public moneys a few years ago. The development of the
-Persian fields is more or less in its initial stages, and though huge
-quantities of oil have already been produced therefrom, the limits of
-the presumably oil-bearing areas have by no means been defined. In
-order to facilitate the export of Persian oil, a pipe-line has been
-laid from the fields to Abadan, on the Persian Gulf, and a programme
-has already been laid down under which large quantities of Persian
-petroleum products will come upon the English markets.
-
-The Egyptian oil-fields have lately witnessed developments upon an
-important scale, thanks to the enterprise of the Anglo-Egyptian
-Oil-fields, Ltd., a concern closely allied with the “Shell”
-Combination, and having as its Chairman, Sir Marcus Samuel, Bart.
-Commercial supplies of crude oil have been found at several points near
-the coast of the Gulf of Suez, and a large refinery has been built for
-the refining of the oil. Down to 1914, the only oil finds of importance
-had been at Gemsah, where a number of oil gushers were struck, but
-the field there proved to be one of most irregular formation, and
-none of the wells gave anything like a permanent yield. Fortunately,
-in that year a field was discovered at Hurgada, the formation of
-which was found to be singularly regular, and the yield of which has
-steadily increased until, at the time of writing, the production of
-crude oil in it is over 15,000 tons per month. That additional wells
-have not been sunk and the field further increased has been primarily
-due to the difficulties of obtaining the necessary plant under war
-conditions. Some very large wells have already been brought in, but,
-so far, the petroleum industry in Egypt is quite in its infancy. It is
-quite obvious, however, that in the next few years the production of
-petroleum in Egypt will be increasingly large, and the developments
-are bound to have a significant bearing upon the oil situation
-generally.
-
-The same remarks equally apply to the Trinidad fields, where the
-anticipations of those associated with the pioneer oil operations have
-been more than fulfilled. Some prolific fields have been opened up,
-and the production to-day is such that an export trade of considerable
-magnitude can be maintained. Developments upon the Island were
-impeded by the total absence of roads in the oil districts, and much
-pioneer work had to be undertaken before it was possible to commence
-the serious exploitation of the fields themselves. The crude oil of
-Trinidad is of both the light and the heavy grades, the former showing
-remarkable percentages of motor spirit, while the latter is used not
-only as fuel oil but also for the treatment of roads so as to render
-them dustless. It is in Trinidad that there is the famous pitch lake,
-from which for many years large quantities of asphalt have been removed
-and exported for a variety of purposes. Trinidad asphalt, in fact,
-is well known all over the world. The potentialities of the Island
-are rapidly being appreciated, for its geographical position is such
-that would make it a practical base for the “oiling” of the great
-ocean-going vessels which are rapidly passing over from coal to fuel
-oil burning.
-
-While on the subject of oil-fields which are under the British Flag,
-mention must be made of Canada, whose oil industry has been developed
-for many years. The principal producing fields are in Ontario, and the
-town of Petrolia is the centre of the petroleum interests. But the
-wells are not of the prolific class, and almost without exception show
-a very poor return for operating. Many of them are sunk only to the
-shallow strata, and their operation would certainly be profitless were
-not a system employed by which quite a number of small producing wells
-are pumped by central power. From time to time, Canada has experienced
-various oil booms, one of the most recent being that which occurred
-in Calgary, in 1914. A well showed a small production of high-grade
-oils, and immediately the country for miles round became the centre of
-an oil fever, which gradually died down when a number of unsuccessful
-developments took place. To-day, the output of the Canadian fields
-is steadily declining, and all efforts to stimulate the production
-have so far failed. Even a Government bounty of 1½ cents a gallon of
-oil produced has failed to encourage an increase in output, and it
-is evident that, unless new fields are opened out, the future offers
-little hope.
-
-The total production of petroleum to-day by the oil-fields developed
-in the British Empire represents but about 2 per cent. of the world’s
-total petroleum output: it is therefore clear that, if we intend
-to secure our oil supplies in the future from territory under the
-British Flag, large supplementary sources of supply must be found. It
-is doubtful whether any additional liquid oil regions will be found
-to produce oil in commercial quantity, for, though several attempts
-have been made in various parts with this end in view, they have not
-achieved success, and numerous instances might be quoted where the
-employment of British capital in an endeavour to bring about this much
-desired result has met with failure.
-
-The question then arises: Is it possible to augment considerably
-Empire-produced oils from other means of development? In this
-direction, the future is full of promise, for, though Nature has not
-given the Empire freely of liquid oil-producing fields, there are
-immense areas of oil-bearing shales at home and in our Dominions
-overseas which can, without great difficulty, be turned into most
-useful account. It is well known that great deposits of retortable
-material exist within the Empire’s bounds, and many of these deposits
-are exceedingly rich. At the moment, however, scarcely any have been
-exploited, and none adequately developed. From time to time, many
-samples of oil-bearing shales from various parts of the Empire have
-been sent to this country for analysis, and these have usually been put
-through Scottish retorts with varying results.
-
-But the unsatisfactory analyses have not been due to the qualities
-of the shale or torbanite examined, but to the methods by which
-the distillations were carried out. The well-known consulting oil
-engineer--Mr. E. H. Cunningham-Craig--made a special point of this in a
-most interesting article which recently appeared in one of the Empire
-magazines, and he pointed out that the reasons for the unsatisfactory
-conclusions arrived at were very simple and obvious. The Scottish
-retorts are designed to deal effectually with highly inspissated and,
-as a rule, not very rich, oil-shales. The recovery of the maximum
-amount of sulphate of ammonia is a desideratum; a sufficient supply
-of incondensable gases to fire the retort must be produced; while
-the recovery of the lighter fractions (motor spirit) of the material
-treated was not an object of the first consideration. For these
-purposes, says Mr. Cunningham-Craig, large and high vertical retorts
-are used, the temperature of distillation is comparatively high,
-superheated steam is blown into the retorts, and a fairly complete
-extraction of volatile matter is achieved. But to apply such methods to
-a very rich and fresh torbanite--such as the richer shales of New South
-Wales--is absurd, involving many practical difficulties and not giving
-the most remunerative results.
-
-Similarly, the rich oil-shales of New Brunswick (Canada), though more
-nearly allied to the Scottish shales, differ from them both chemically
-and physically to such an extent as to require different treatment. Let
-me now briefly refer to the deposits which are known in the Dominions
-and Colonies that give promise of yielding oil in commercial quantities
-by destructive distillation. I will first take the shales of Canada,
-for though, as I have pointed out, the Dominion’s production of liquid
-oil is steadily decreasing, there are numerous deposits of shales which
-only await careful exploitation and development in order to render
-Canada a petroleum-producing country of considerable magnitude. The
-oil-shales of New Brunswick have been known for many years, yet only
-a fraction of the area has been yet prospected. Experiments with the
-shales have shown that they are capable of producing nearly 50 gallons
-of crude oil the ton of shale treated, while ammonium sulphate has been
-produced at the remarkable proportion of 77 lb. a ton. Albert County is
-one of the best shale-fields, and it is here that a Government scheme
-has now been promulgated. The shales of Nova Scotia are likewise to be
-commercially developed, but so far no serious attempt has been proposed
-to deal with the enormous areas in Newfoundland, the Province of
-Quebec, and other already known regions of Canadian oil-shales.
-
-Australia can boast of very large areas of shales: some deposits
-have been operated for several years, but others are still awaiting
-development. From a variety of causes, however, the shale-oil industry
-of Australia has never been set upon a profitable footing. The
-Commonwealth Oil Corporation some years ago set out to accomplish
-much, but the only thing which it seemed to do with energy was to
-sail to destruction. Its failure cannot be said to have been due to
-any absence of the material it set out to treat for petroleum, for at
-every turn enormous quantities were opened up. It would appear that the
-immensity of the possibilities which awaited its operations was one
-of the prime reasons for its premature decay, while there is no doubt
-that the system it employed was by no means the best for treating the
-shales. A more simple and less expensive method of retorting the shales
-would doubtless ensure successful working. In Queensland, Tasmania, and
-New Zealand the presence of these shales has been proved over extensive
-areas, and though for the most part they have so far been neglected,
-there is reason to hope that, in the not distant future, the advantage
-to be derived from their commercial exploitation will be the more
-widely appreciated. A most lucrative industry could be built up by the
-Commonwealth of Australia by the distillation of the torbanites there,
-and though, perhaps, it is too much to expect that an export trade in
-petroleum products could be built up, there is no doubt whatever that
-the large requirements for petroleum products in the Dominion could
-easily be met by the production from home sources.
-
-The possibilities of developing a shale industry in Africa are not
-particularly promising, though they are by no means out of the range
-of probability. In the coal series in the Transvaal, beds of what are
-known as “oil-shales” are encountered in several localities The seams
-generally are thin, and in some cases unworkable, but the material is
-very rich, and has proved capable of yielding high percentages of crude
-oil.
-
-In Sarawak (British North Borneo) the “Shell” Company is carrying out
-most important and highly successful developments, which are bound to
-have far-reaching and gratifying results in regard to developments
-under the British Flag.
-
-As I have shown, the problem of Imperial oil supply would be far on
-its way to solution by the development of the various shales in the
-British Empire, and the pity is that a more progressive policy has not
-been adopted in regard thereto long before the subject became of such
-pressing importance. Each of our Colonies--like the Mother Country--is
-a large consumer of petroleum products, and each is also totally
-dependent upon imported supplies, yet within the borders of each are to
-be found large deposits of the necessary crude material.
-
-
-
-
-CHAPTER XI
-
-PETROLEUM’S PART IN THE GREAT WAR
-
-
-A perusal of the preceding chapters of this little work will have made
-it clear to the reader that petroleum and its products play a most
-important part to-day in the life of nations: if, however, one would be
-impressed with the immensely significant rôle which petroleum products
-have played in the conduct of the great European War, a brief reference
-to the subject will amply suffice. From the commencement of the Titanic
-struggle in 1914, it became obvious to those who were most competent
-to judge that, if victory was to be on the side of the Allies, it was
-imperative that they should possess sufficient reserves of petroleum
-products for all purposes, for it was evident then that activity would
-not be limited to armies on the land, but that the air and the sea
-would also become battle-grounds whereon the destinies of nations would
-in part be decided.
-
-Germany, too, saw this; before the war it had been practically
-dependent upon regular supplies from the United States as well as
-from Roumania, but the bulk of its requirements came from the former
-mentioned country. With its States’ oil shipments cut off, it turned
-its attention to securing at least part of its stocks from the neutral
-North-Western European countries, which, in their turn, were likewise
-dependent upon America. The ruse worked for some time, and the
-unsuspecting American exporters shipped cargoes to Denmark, Norway, and
-Sweden with little idea that the bulk of these were ultimately to find
-their way into Germany. It was only when the figures were published in
-the States as to the abnormally large quantities of petroleum products
-that had been sent to the European neutral countries that, to the
-thinking mind, it became obvious something was wrong.
-
-I can modestly claim to have called the attention of the British
-Government to this underhand proceeding early in 1915, when I not
-only gave them details of cargoes which had been delivered to various
-North-Western European ports _en route_ to Germany, but also managed
-to secure the names of vessels all laden with such supplies, which at
-that time were crossing the Atlantic. Mr. Winston Churchill, to his
-credit be it said, acted without delay, and within a few days, as the
-vessels passed the North of Scotland, they were stopped, and--well, to
-cut a long story short, this country got the petroleum products which,
-in accordance with the original plan, would have gone to Germany.
-Some time afterwards there came a voice of protest from one or two
-interested persons in those neutral countries, for they declared that
-not a single barrel of petroleum had gone over to Germany, but evidence
-was soon forthcoming to show how well Germany’s ruse had worked for
-some months, and a prosecution in one of those countries made against
-an importing firm, for actually sending petroleum supplies into
-Germany, effectively closed the protest from those who would have liked
-the enemy’s desires to have been undisturbed.
-
-There is not the slightest doubt that Germany at that time was in dire
-straits for sufficient petroleum products for its military purposes:
-had the war been somewhat delayed in its commencement, she would have
-been far better prepared, for, under the auspices of the Government,
-there had been laid down an elaborate programme for the importation
-and distribution of Roumanian petroleum products throughout Germany.
-As it was, the country was unprepared, and, though in other directions
-every possible precaution had been taken to carry through an elaborate
-military programme of offence, the prospective dearth of sufficient
-supplies of petroleum products necessitated the enforcing of the
-most stringent regulations with regard to the uses of all petroleum
-products, excepting for military purposes.
-
-The taking of the Galician fields from the Central Armies by Russia
-gave a serious set-back to Germany’s military plans, and it was only
-when the Russians had to withdraw from Lemberg that the enemy was able
-to count upon sufficient supplies to meet his military requirements.
-To an extent, he was even then doomed to disappointment, for, when his
-armies arrived on the Galician fields, they found that practically the
-whole of the petroleum reserves had been destroyed, and a large number
-of the prolific producing wells more or less permanently damaged.
-Nor, to my mind, was the advance into Roumania prompted by the idea
-of territorial gains so much as to secure control of the country’s
-oil-fields. Here, again, Germany’s desires were in part thwarted,
-for the efforts of the British Military Mission, to which I refer
-elsewhere, had been eminently successful.
-
-From that time onward, however, Germany’s supplies of petroleum
-products were secured, and that she turned them to account was a matter
-of common knowledge. Germany, naturally, greatly valued the acquisition
-of the Roumanian oil-fields, and it must be to its people a great
-disappointment that the whole of these immensely prolific regions for
-oil production are now permanently removed from the nation’s grasp.
-
-Unfortunately, the British Government did not seriously appreciate the
-importance of petroleum products in war as well as peace until the
-war cloud of 1914 was about to burst. It had taken no notice of the
-suggestions made from time to time that in our own country there might
-be vast petroleum reserves awaiting development, and it had not even
-shown any encouragement to the Scottish shale-oil industry. All that
-it had done, and even this was on the eve of war, was to invest over
-£2,000,000 in the Anglo-Persian Oil Company, Ltd., for the development
-of the Persian oil-fields, so that the Navy could secure ample supplies
-of fuel oil. But here, however, there were difficulties ahead, for the
-Persian fields are in the interior of the country and have to rely upon
-pipe-lines to bring the supplies to the coast.
-
-Everything, therefore, depended upon the security of the pipe-line,
-and the idea which was in the minds of many who opposed the scheme as
-to the possibility of supplies being cut off by the activities of the
-insurgents, was by no means a mistaken one; the pipe-line was, in fact,
-partially destroyed, and the transport of fuel oil held up for a long
-time.
-
-As a nation, we have all along had to depend upon imported petroleum
-products, and, inasmuch as our supplies could be drawn at will from
-a variety of producing countries, the idea that we might at one time
-find ourselves cut off from supply does not appear to have occurred to
-many. No sooner had the war started, however, than we found, owing to
-the closing of the Dardanelles, that both Russia and Roumania could no
-longer attend to our requirements, while the Far East, owing to the
-great ocean journey necessitated to this country (and the quickest way
-lay through the Mediterranean) could not maintain regular shipments
-with us. It is fortunate that we found the United States willing, and
-from the start very desirous, to do all that was possible to help us
-out of a difficulty; while Mexico, with its wealth of British oil
-interests, catered in every way for the meeting of the enormous demands
-we made upon its resources.
-
-To say that petroleum products have played a highly-important part in
-the conduct of the war is but to under-estimate facts. The importance
-of their part has been equal to that of the supply of guns and shells,
-and, when the statement was made in the House of Commons in 1917 that
-adequate supplies of petroleum were quite as essential as men and
-munitions, petroleum’s part was then not over-stated. Rather would I
-say it was on the contrary, for, had there been at any time a dearth
-of any classification of petroleum products, then the vast naval and
-army organization, both on and across the water, would immediately have
-lost its balance, and our great fighting units would automatically have
-become useless. Just think of it for a moment.
-
-To-day, our great naval fighters--take the _Queen Elizabeth_, for
-instance--rely upon fuel oil for purposes of power, while our second
-and third line units must also have it, for, whether it be fuel oil or
-the lighter products of the oil refinery--I refer to motor spirit--it
-matters not, so far as supply is concerned. The whole of our winged
-fleets in the air must, of necessity, be useless unless they can
-regularly draw large quantities of motor spirit, and the volume they
-consume, even on a single trip, would surprise many, though it is not
-possible here to enter into figures.
-
-At first sight one might be inclined to think that, apart from
-petroleum products being a very useful adjunct to the organization of
-battles on land, their use is not of a very real nature, but, if we
-pause for one moment, our first impressions are disillusioned.
-
-It was my privilege at the end of 1917, thanks to the kindness of
-the British Foreign Office, to pay a visit to the fronts of France
-and Flanders, and there to have an opportunity of seeing the part
-which petroleum products did actually play. The immensity of this
-importance cannot be easily grasped, nor easily described. We all
-know the remarkable progress which had been made in regard to the
-extension of the railway systems throughout the zones of battle, but
-it will surprise many to learn that it was when the rail-heads had
-been reached, and between there and the real battle front, that motor
-spirit had the realm of transport to itself. Tens of thousands of heavy
-motor vehicles took up the work of transport when it left the railway,
-and it was this service that was required to see not only that our
-millions of men daily received their food, but each and every sort of
-ammunition also. But it was not even when the front line of battle was
-reached that motor spirit had finished its work. Those great machines
-of war--the tanks--had to remain stationary if they were not fed by
-large supplies of spirit, while petroleum, too, took a primary position
-in the making of the liquid fire which now and again we heard of as
-causing such havoc to Fritz. But, at its best, the railway was somewhat
-slow at the Front, no doubt owing to the enormous congestion which
-was inseparable from the reign of a state of war. Consequently, whole
-fleets of motor vehicles were employed day and night in a ceaseless
-stream of traffic, from the coastal ports right up to the zone of
-battle. Without divulging secrets, it is safe to say that that branch
-of the service alone demanded millions of gallons of motor spirit
-weekly.
-
-Both after as well as before battle, the products of petroleum were
-essential, for, when the Red Cross vehicles took up their humane work
-of transporting the wounded heroes of the fight, those, too, called for
-innumerable quantities of motor spirit. And when darkness had fallen
-the oil lamp came into general use. It was to be found wherever there
-was a vestige of life in those zones of battle: the soldiers in their,
-at times, lonely dug-outs, used oil for cooking as well as for light,
-and all vehicular traffic was guided from disaster along the roads by
-the use of oil, which also offered the only source of artificial light
-in the Red Cross vehicles. What an immense organization it was which
-depended for its ceaseless activities upon the products of petroleum!
-
-One day, while at General Headquarters, I expressed a desire to see
-the methods by which all that world of activity secured its necessary
-supplies of petroleum products regularly, when once they had arrived
-in France in bulk. A few days later, I was, accordingly, allowed to
-visit the immense central depot at Calais, at which all the petroleum
-products required for use in the organization of transport were dealt
-with. It is safe to say that at no centre in the world did there
-exist such an extensive petroleum depot, nor anywhere else was there
-an organization upon whose perfect working so much depended. Though
-motor spirit necessarily occupied the first position of importance,
-practically the whole range of products was dealt with. The motor
-spirit was received in bulk, but at the depot had to be measured into
-the familiar 2-gallon can (which was made on the spot) and sent up
-country in special trains each day. Specially coloured tins denoted
-the best quality of the spirit, and it was that which was reserved for
-the numerous aerodromes in France and Flanders. The magnitude of that
-branch of the depot might be guessed when I state that at the time of
-my visit considerably over 2,000,000 2-gallon petrol tins were being
-either stored or filled for up country dispatch.
-
-All kinds of lubricants were also essential for the purposes of war,
-for even motor spirit itself would be of little use for the internal
-combustion engines, if the engines could not secure their regular
-supplies of lubricating oils. These, too, had to be dispatched with
-remarkable regularity to every section of the battle zones, whilst, as
-I have suggested earlier, the daily requirements of war necessitated
-the distribution of illuminating oil in large quantities.
-
-But no reference to petroleum’s part in the great European war would be
-complete were it not to include mention of the way in which supplies
-of toluol assisted in securing victory to the Allies. Toluol, as is
-known, is necessary for the production of high explosives, and in the
-early stages of the great conflict, the output of high explosives was
-considerably restricted by the absence of sufficient quantities of this
-necessary explosive primary.
-
-It was at that time that a discovery of the utmost importance was made,
-for, as the result of investigations carried out at the Cambridge
-University, it was found that the heavy petroleums of Borneo contained
-large percentages of toluol.
-
-Sir Marcus Samuel, Bart., the Chairman (and the founder) of the Shell
-Transport and Trading Company, Ltd., lost no time in apprising the
-British Government of the discovery, for it is in the Borneo oils that
-the Shell Company and its allied concerns are chiefly interested.
-
-The offer for the delivery of these immense quantities of toluol was
-eagerly accepted by the British and Allied Governments, and from that
-time onward, the supply of high explosives was practically unlimited.
-
-The French and Italian Governments have asserted that, but for this
-specific offer of toluol, the manufacture of high explosives would have
-had to remain so limited, that it would have been impossible to bring
-about an Allied Victory in 1918. Their thanks were publicly extended
-to the Shell Company at the conclusion of hostilities, and Mr. H. W.
-Deterding and the Asiatic Petroleum Company were specially thanked,
-while as far back as 1915, Sir Marcus Samuel, Bart., received the
-thanks of the British Government for his invaluable war services. It
-was only after the firing of the guns had ceased on all Fronts, that it
-was permissible to record in what a remarkable manner these services
-were rendered.
-
-The exigencies of space have prevented my dealing, excepting in the
-most brief manner, with this interesting subject: I only hope I have
-succeeded in showing that, in times of war, as well as in those of
-peace, petroleum products occupy the position of first importance.
-
-
-
-
-CHAPTER XII
-
-THE SCOTTISH SHALE-OIL INDUSTRY
-
-
-In view of the great interest which is now being centred in the
-production of petroleum in the British Isles--thus making this country
-to a large extent less dependent upon foreign sources of supply--the
-Shale-oil Industry of Scotland is assuming a new importance, for the
-reason that it is in the direction of the development of new oil-shale
-areas in several parts of the country that experts look with a great
-amount of confidence.
-
-It is specially interesting, therefore, to deal at some length with
-the growth of the industry, the methods by which the oil shales are
-operated, and the prospects for its extension.
-
-The name of Dr. James Young, of Renfrewshire, will ever be associated
-with the commercial exploitation of the oil-bearing shales in the
-Midlothians, for it was due to his enterprise that the Scottish
-shale-oil industry really owed its birth and much of its later
-development. It was while Young was managing a chemical works at
-Liverpool that his attention was drawn to small flows of oil which
-came from a coal seam at Alfreton, in Derbyshire. This was in 1847,
-and after experimenting with the liquid, Young succeeded in extracting
-therefrom on a commercial scale both a light burning oil and a
-lubricant, as well as wax. When the supply became exhausted, Dr. Young
-had an idea to imitate the natural processes by which he believed the
-oil had been formed. The outcome of this was the well-known Young
-patent for obtaining paraffin oil and other products from bituminous
-coals at slow distillation.
-
-The Young process was utilized with much success in the United States
-until such time as it became unprofitable owing to the largely
-increasing production in America of liquid oils obtained direct from
-the earth. It was about this time that a bituminous mineral known as
-Boghead coal, and existing in the Midlothians, was discovered, and
-from this Young secured upwards of 100 gallons of oil from each ton
-treated, but soon this mineral was, in a practical sense, exhausted,
-and so the bituminous shales, now known as oil-shales, came in for
-attention. Before passing away from Dr. Young’s services in connection
-with the establishment of the Scottish shale-oil industry, it should be
-mentioned that he figures very largely in more than one of the earlier
-Scottish shale concerns. He founded the Bathgate Oil Company, which, in
-the zenith of its operations, treated 1,000 tons of shale daily, this
-Company being later merged into the Young’s Paraffin Light and Mineral
-Oil Company, Ltd., one of the large Scottish shale-oil undertakings and
-well known throughout the world to-day.
-
-The Scottish shale-oil fields, as exploited to-day, cover a belt of
-territory which is about 6 miles broad and stretches from Dalmeny
-and Abercorn, on the Firth of Forth, southwards across the fertile
-tract between the River Almond and the Bathgate Hills to the moorland
-district of Cobbinshaw and Tarbrax. Throughout this region there are
-various important mining centres, such as Broxburn, Uphall, East
-Calder, Mid-Calder, West Calder, and Addiwell; and in connection with
-the shale-oil industry, upwards of 25,000 persons now find regular
-employment.
-
-The shale measures on which the shale-oil industry depends, form part
-of the calciferous sandstone series of Mid and West Lothian and the
-southern coast of Fife. The carboniferous system of Scotland may be
-arranged in descending order in four divisions, as under--
-
-4. Coal measures, comprising red sandstone, shales, and marls with no
-workable coals, underlaid by white and grey sandstones and shales with
-numerous valuable coal seams and ironstones.
-
-3. Millstone grit, consisting of coarse sandstones, with beds of
-fireclay, a few thin coals, ironstones, and thin limestones.
-
-2. Carboniferous limestone series, embracing three subdivisions, the
-highest of which contains three or more limestones with thick beds of
-sandstone and some coals, the middle includes several valuable seams of
-coal and ironstone, and the lowest is characterized by several beds of
-marine limestone with sandstone, shales, some coals, and ironstones.
-
-1. Calciferous sandstone series, forming two subdivisions. The upper
-is known as the oil-shale group, and is over 3,000 feet in thickness,
-and contains, in its highest part, beds of coal, usually of inferior
-quality, and, farther down, about six main seams of oil-shale,
-inter-stratified with beds of sandstone, shale, fire-clay, marl, and
-estuarine limestones.
-
-Although the calciferous sandstone series is well developed in other
-parts of Scotland, it has not hitherto yielded any oil-shale of
-economic importance beyond the limits of West Lothian, Mid Lothian,
-and Fife. Thin seams of oil-shale do occur in various places in the
-counties of Haddington and Berwick, but, generally speaking, the
-quantity is not sufficient to be practically worked.
-
-A word or two as to the oil-shales themselves. The shales, as known
-in the Lothians, are fine black or brownish clay shales, with certain
-special features which enable them to be easily distinguished in the
-field. Miners draw a distinction between “plain” and “curly” shale,
-the former variety being flat and smooth, and the latter contorted or
-“curled,” and polished or glossy on the squeezed faces. In internal
-structure, oil-shale is minutely laminated, which is apparent in the
-“spent” shale after distillation, when it is thrown out in fragments,
-composed of extremely thin sheets like the leaves of a book.
-
-Before touching upon the methods employed in mining the shale and the
-treatment it receives during distillation, it is interesting to note
-that the industry in Scotland has passed through many vicissitudes
-since its establishment. At that time, the American oil industry was
-but in its infancy, and the production in the States was utilized
-mainly on the American markets. Consequently, there was a great
-demand for the Scottish oils in this country, and in 1870 there were
-no fewer than ninety small oil-works in the Lothians, the majority
-of which were operating the shales. It was about this time that the
-American illuminating oil came over to this country, and a very
-sorry blow was dealt the Scottish industry. So disastrous was the
-resulting competition between the Scottish products on the one hand,
-and the American and Russian petroleums on the other, that one by
-one the Scottish companies closed down, and, after less than eight
-years of competition, the number of operating companies had fallen to
-twenty-six. The decay continued until the number of active concerns in
-the Scottish shale-oil industry could be counted on one’s fingers.
-
-The industry exists to-day simply as a result of the great improvements
-which have been made in the retorting of the shale, by which larger
-quantities of products are produced--including ammonia. It is thus able
-to withstand foreign competition.
-
-To-day, it is estimated that nearly 4,000,000 tons of the Scottish
-shales are treated every twelve months by the several operating oil
-companies. The most important of these concerns--the Pumpherston Oil
-Company--has been regularly operating since 1883, and, inasmuch as it
-deals with by far the largest quantities of shale treated, a brief
-account of its operations will be of advantage in enabling the reader
-to understand the methods by which a total of nearly 400,000 tons of
-oil are produced each year in Scotland.
-
-The operations of the Pumpherston Oil Company are upon a scale of
-considerable magnitude, for the Company’s works comprise the crude oil
-plant, the sulphate of ammonia plant, oil and wax refineries, etc. The
-Seafield and Deans works, 7 and 4 miles distant respectively, possess
-only crude-oil and sulphate-producing plants, the refining plants being
-confined to Pumpherston. The Company’s works cover 100 acres, while
-the shale fields extend over many thousands of acres in and around the
-district of Pumpherston.
-
-As has already been mentioned, the shale fields so far operated
-lie, in the main, in the Lothians, and, as one motors by road from
-Edinburgh to Glasgow, the shale country is passed through. Before
-the commercial development of a shale field, trial borings are sunk,
-now more generally by means of a diamond bore, for by its revolving
-action a solid core is obtained which readily shows the character and
-inclination of the strata passed through. When a seam of shale has been
-found by boring operations, and the exact position and depth of outcrop
-determined, it is necessary, before sinking a mine, to put down a trial
-shaft for the purpose of making sure as to the true gradient at which
-the shale is lying, and the thickness as well as the quality of the
-same.
-
-In the shales in the Pumpherston district there are five distinct
-seams, dipping from 29 degrees to 38 degrees, and the mine is driven in
-the middle seam, the other seams being entered by level cross-cut mines
-driven from one to another. Each of these seams is worked separately,
-the cross-cut shown in the sketch serving the purposes of communication
-and transit. In some cases, where the inclination of the shales is at
-a different angle, it is necessary to sink a vertical shaft, and this
-method is applied to the series known as the Mid-Calder.
-
-The usual dimensions of the inclined shaft are a width of from 10
-to 12 feet, and the height is from 6 to 8 feet. If the sides of the
-shaft prove to be of a soft nature, as is generally the case with the
-shale at the crop, walls are run up and the roof is supported by larch
-crowns, but, where the shale is hard and the roof good, then the less
-costly method of timbering is adopted.
-
-The supports to the roof in many cases are fixed “centre” fashion,
-dividing the shaft into two unequal parts. The smaller division has
-generally a width of just over 3 feet, and is used for haulage ropes
-and water pipes, while the larger division is utilized for winding.
-During the progress of sinking, levels are broken away in the seam at
-regular distances, and driven so as to get communication with, and
-drive headings to form, the outer mine. These headings are driven in
-the same direction as the sinking mine to the levels above, until
-they connect with the outer mine or shaft. The outer mine is then
-used for winding the shale up to the surface, and the other is kept
-for sinking purposes, and by this means winding and sinking can go on
-simultaneously.
-
-[Illustration: GENERAL VIEW OF THE PUMPHERSTON WORKS]
-
-The seams of shale in the Midlothian fields vary generally from 4 to
-10 feet in thickness, say 7 feet as an average, and, on the whole,
-they are comparatively free from ribs of unproductive rock. With a
-thickness of 7 feet, experience has shown that the method best adapted
-for the efficient working of the shale is “stoop and room,” but in the
-case of two seams of shale, separated by a bed of foreign material
-of sufficient thickness for packing, the long wall method proves the
-more suitable. The “stoop and room” method, however, is more generally
-used throughout the Scottish shale district than any other, its chief
-characteristics being the (1) “whole” or first working, and (2) the
-broken or second working. The whole working consists of a series of
-excavations made in the shale, whereby it is divided into rectangular
-blocks or pillars. These excavations are called rooms, one set being
-driven at right angles to the dip of the shale and at regular distances
-from one another, and commonly called “levels”; another set, driven to
-the rise of these levels and at right angles to them, being usually
-known as “ends” or “upsets.” The latter are broken off the levels at
-regular intervals and driven upwards to meet the levels above.
-
-The shale miner holes as far as he can reach--probably three or more
-feet--and brings down the shale by blasting, the process being repeated
-until he penetrates a distance of from 9 to 12 feet from the face at
-road-head. The shale, being loosened from its natural bed, is then
-placed in “hutches,” which are taken to the bottom of the shaft by
-either horse or chain haulage (much as with coal), and then the journey
-to the mouth is commenced. Before leaving the question of shale mining,
-it should be explained that the shale miner is subject to dangers much
-as his colleague in the coal-pit, but the volume of gases found in the
-shale seams is not so great as in the coal measures. These, however,
-are of an explosive nature, the most common being fire-damp.
-
-Once above ground, the shale is conveyed to breaking machines by
-endless wire-rope haulage. Passing through the machines, it is broken
-into suitable sizes for distillation, and drops into hopper-shaped
-hutches. These hutches have a capacity of about a ton, and each in turn
-is conveyed to the top of the retorts on an inclined scaffold by an
-endless chain. The shale then falls by the operation of a lever into a
-hopper or magazine communicating directly with the retorts, one hopper
-with a storage capacity of 24 hours’ supply of shale being connected to
-each retort of the Pumpherston Company.
-
-This Company’s retorts--they are patented--are in use at the various
-works of the Pumpherston Company, and are an interesting feature to
-visitors. The shale is fed by gravitation into cylindrical-shaped
-retorts, and built vertically in ovens of four, each oven having four
-chambers. The upper portion is of cast-iron, 11 feet long by 2 feet
-in diameter at the top, and slightly enlarged toward the bottom. Heat
-is applied externally from the incondensable gases obtained from the
-distillation of the shale, and this heat is made to circulate round
-the retort. In the case of the poorer qualities of the shale, however,
-the heat is assisted by producer-gas. The heating gas enters near
-the bottom portion of the retort, which is of fire-brick, along with
-a certain quantity of air, and a high temperature--from 1,200°F. to
-1,600°F.--is maintained, in this portion converting the nitrogen of the
-shale into ammonia, which is preserved by a continuous supply of steam
-delivered at a slight pressure at the bottom of the hopper.
-
-The oil gases are distilled from the shale in the cast-iron portion
-of the retort at a temperature of about 900° F., and, along with the
-ammonia gas, are drawn off by the exhausters through a branch pipe
-at the top of the retort, through the atmospheric condensers, from
-which the condensed liquid oil and water containing ammonia flow into
-a small separator tank. It is here that, owing to their different
-specific gravities--for one is lighter than the other--they assume
-different levels, and are thus drawn off into separate tanks. The
-gases then pass through ammonia scrubbers, in which they are washed
-for ammonia, and then through the naphtha scrubbers, where the lighter
-gases, which could not be caught in the atmospheric condensers,
-are washed with oil and a good quality of light oil or naphtha is
-recovered. The incondensable portion passing from these scrubbers is
-burned in the retorts as previously mentioned. With a shale of average
-yield, the retort can be heated by these incondensable gases from the
-distillation, and a surplus obtained for burning under steam boilers.
-
-What is doubtless a very unique feature of the Pumpherston retort
-is the mechanical arrangement for withdrawing the spent shale
-continuously, and thus keeping the whole mass inside the retorts in
-constant movement. Below each pair of retorts is fixed a hopper made
-of cast-iron, and fixed to girders supported on the brick piers or
-columns between the ovens. At the top of each hopper, and immediately
-underneath the bottom of the retorts, is fixed a cast-iron disc or
-table, with a space left between its edge and the sides of the hopper.
-The whole mass of shale in the retort rests upon the table, the space
-permitting some to pass over the edge. Through the centre of the table
-a steel spindle projects, on the upper end of which is fixed a curved
-arm, and this, when rotated, pushes some of the shale off, causing it
-to fall over the edge of the table into the hopper below. The shaft
-carrying the curved arm passes through a stuffing-box on the hopper,
-and has a ratchet and lever fitted to the lower end, actuated by a
-rod of T-iron which is made to travel horizontally, and is driven by
-a small electric motor. The motion is comparatively slow, the arm
-making but one revolution in about 20 minutes, but the action is most
-satisfactory, the through-put of shale being regulated at will.
-
-The ammonia water got from the atmospheric condensers is pumped through
-a heater, in which it is raised in temperature by the waste water
-flowing from the still, and passes into the top of the still, which is
-circular in shape, about 30 feet high, and has a series of cast-iron
-shelves or trays fixed horizontally every 2 feet or thereabouts from
-the top to near the bottom. Steam is put into the bottom of the still
-at a pressure of 40 lb., and passes to the top through a series of
-conical arrangements on the shelves carrying with it the volatile
-ammonia, while the water, after traversing the whole area of each tray,
-passes out into a concrete tank containing a cast-iron worm, which is
-the heater already referred to, for the ammonia water on its way to the
-still. During its progress from the top to the bottom of the still, the
-water is diverted into a chamber containing milk of lime, setting free
-the fixed ammonia which cannot be got by steaming.
-
-The steam and ammonia gas liberated in the still pass over into a
-large lead-lined tub or saturator, and bubbles through holes in a
-lead worm placed round the circumference at the bottom of the vessel.
-Sulphuric acid is at the same time run into the saturator, and, at
-a certain temperature, sulphate of ammonia is formed. The sulphate
-falls into a well, formed in the centre of the bottom of the vessel,
-in which are placed two steam ejectors, and these blow it out along
-with some liquor. This mixture is delivered into hutches having
-perforated bottoms, through which the ammonia liquor drains off, the
-solid sulphate being left in the hutch. This is now run by an overhead
-railway to the drying or storage stalls, and from these it is packed
-up and dispatched to the market. The exhaust steam and waste gases
-from the saturator are passed into the retorts, and utilized for the
-formation of ammonia from the shale, while the spent water is pumped to
-the spent shale bing, and thoroughly filtered before being allowed to
-escape from the works.
-
-For dealing with the weak acid water recovered from the refinery, the
-Pumpherston plant consists of lead-lined tubs or crackers, into which
-a quantity of the acid water is run, and saturated with ammonia gas
-until it is near the salting point, when it gravitates into settling
-vessels in order to separate any tar carried over with the acid water.
-The clear liquid is then drawn into the saturator, where it is quickly
-converted into sulphate and blown out in the manner already described.
-
-So up to date is the whole of the system governing the treatment of the
-shales and the resulting products, that the pumping of water from the
-mines, the haulage of the shale to the refineries, as well as driving
-of machinery in the works, is performed by electric power, the exhaust
-steam from the engines driving the generators, as in the case of the
-sulphate of ammonia exhaust, being sent to the retorts for use in the
-production of ammonia.
-
-The process of refining the crude oil obtained from the shale into
-the various products is somewhat complicated and perplexing to those
-unassociated with the industry on account of the many distillations
-and treatments which have to be carried out before a good marketable
-article is produced. The following outline, however, will give a fair
-idea of the process adopted throughout Scotland.
-
-The crude oil is delivered at the refinery into large tanks, which
-are placed at a sufficient height to feed the stills by gravitation.
-The crude oil is allowed to settle for twelve or more hours at a
-temperature sufficiently high to separate any water that may have
-passed the test at the retorts, and after this water has been run
-off, the oil is fed into the centre boiler of a battery of oil
-boilers. The lightest fraction of the oil--ultimately motor spirit and
-illuminating oils--is distilled off the feeding boiler and condensed
-in a coil of cast-iron pipes immersed in water in a tank, cold water
-being continuously run into the tank, while heated water is run off.
-The boilers on each side of the feed vessel receive their oil by a
-pipe connecting with the bottom of the latter, and they also distil
-over the lighter portion of oil with which they have been fed, the
-heavier portions passing on to a third boiler, where the process of
-distillation is repeated.
-
-The oil now left is delivered into a cast-iron pot-still, in which
-it is ultimately distilled to dryness, the residue left in the still
-forming oil coke, which is valuable as a fuel on account of its high
-percentage of fixed carbon and low yield of ash. Steam is admitted to
-the still in large quantities at all distillations. The various stages
-of distillation are carried through in almost identically the same
-manner as that of crude oil, and, therefore, need not be described in
-detail.
-
-The treatment or washing of the oil to remove the impurities that
-cannot be eliminated by distillation, consists in stirring the oil
-by compressed air for a given time in an iron vessel, with a fixed
-quantity of sulphuric acid, allowing it to settle, and running off the
-heavy mixture of tar and acid which separates. The acid-treated oil
-is then run into another similar vessel, treated with a solution of
-caustic soda, settles, and the soda tar which separates is run off.
-The acid tars are steamed and washed, the resulting acid water being
-sent to the sulphate of ammonia house for the manufacture of sulphate
-of ammonia, whilst the tar is mixed with that from the soda treatments
-and burned under the stills as liquid oil. As there is more than
-sufficient of this tar to distil all the oil at the various stages,
-the distillation is carried out without cost for fuel, excepting that
-necessary for steam-raising purposes.
-
-A portion of the oil distilled at the second distillation, or green
-oil stage, is sent from the stills to the paraffin sheds to be cooled
-and the scale extracted, this eventually being made into paraffin wax.
-Stored in tanks until brought down to atmospheric temperature, the
-oil is pumped into the inner chamber of a cooler, which consists of a
-series of four vessels having inner and outer compartments. At the same
-time, anhydrous ammonia is forced into the outer compartment or jacket,
-and absorbs heat from the cooler, freezing the oil in the inner jacket
-into a pasty mixture of liquid oil and solid crystals of wax.
-
-This mixture is then pumped into filter-presses, where a portion of
-the oil flows away through the cloth, while the wax is left behind
-in solid cakes, still containing a quantity of oil. These cakes are
-delivered by conveyors to the back of the hydraulic presses, where
-they are wrapped in cloth and placed on shelves between iron frames in
-the presses, most of the remaining oils being thus squeezed out. The
-material obtained from the hydraulic presses is known to the trade as
-paraffin scale, and as it is discoloured by the small quantity of oil
-which cannot be removed by pressing, a process of sweating by steaming
-in large brick compartments is adopted, in order to remove the oil.
-The scale, consequent upon the removal of the oil therefrom, becomes
-whiter and of higher melting point, and after further treatment is
-finally passed through filter paper and run into moulding trays. When
-cooled, this product is known as paraffin wax, of which there are many
-grades. One cannot enter into the technical arrangements involved, for
-obvious reasons, the chief one of which is that these cannot interest
-the reader; but sufficient has already been written in this chapter to
-suggest to the reader the perfection which has now been reached in the
-treatment of the shales of the Midlothians.
-
-As to the future, it is full of promise. There is no doubt that for
-many years to come the full force of foreign competition, as it has
-existed in previous times, will not be felt. There is a free field
-for Scottish enterprise in connection with the distillation of its
-oil-bearing shales. Nor is the region for development limited to its
-present area. Reports point to the fact that much area of commercial
-ground exists, not only on the eastern side of Scotland, but also in
-the north and north-west, while it is already an open secret that
-those responsible for the conduct of Government operations are viewing
-with favour even the liquid extraction of oil from certain areas not
-far distant from the zone of the present operations. The Scottish
-shale-oil industry has, so far, managed to defy competition from abroad
-to an extent which is reflected in the balance sheets of the several
-operating companies, whose yearly dividends have been from 50 per cent.
-downward during recent years.
-
-One thing is certain, and that is, the Government is well aware that
-there are great possibilities associated with the shale-oil industry
-of Scotland, and it is not only watching developments with direct
-interest, but is doing all in its power to foster the industry, and
-by all means possible encourage the exploitation of areas so far
-not commercially developed. At some future date there is a great
-possibility that the present area for developments will be largely
-extended, and as this is written, there is much evidence forthcoming to
-suggest that this commercial development of new lands will not long be
-delayed.
-
-
-
-
-CHAPTER XIII
-
-A FEW NOTABLE PETROLEUM ENTERPRISES
-
-
-No brief survey of the petroleum industry would be complete were
-reference not made to a few of those remarkable commercial undertakings
-in various parts of the world whose interests are not only closely
-associated with it, but to whose energies has been due much of the
-expansion that has been witnessed in every direction during the past
-few decades. It is safe to assert that, had it not been that the
-petroleum industry has, in its various industrial and commercial
-aspects attracted the attention of some of the finest financial and
-business houses in the world, the wonderful progress which has been
-recorded would, for the most part, have been impossible.
-
-The first place must of necessity be given to that much maligned
-amalgamation of capital, the Standard Oil Company of New Jersey, which
-was formed as far back as 36 years ago by Mr. John D. Rockefeller
-and his associates for the primary purpose of developments in the
-petroleum industry of the United States. At that time, the petroleum
-production of America had become quite a factor in commerce, but it
-was, obviously, in want of a guiding hand which could not only place
-it upon a basis of solidity, but which would tend to remove much of
-that gambling element which had become almost part and parcel of all
-developments. The Company, at the head of which were several gentlemen
-who had already made themselves famous in the land of oil, launched out
-in several directions, and, through the numerous subsidiary concerns
-which it soon created, it owned very extensive oil-bearing properties
-in practically every oil-field of the States, while it built quite a
-network of pipe-lines for the conveyance of the oil from the fields to
-the refineries, and from the refineries to seaboard. It erected and
-equipped oil refineries, and, so as to provide the much-needed foreign
-markets for American petroleum products, it built its fleet of oil
-tankers; and, lastly, opened depots for the distribution of American
-petroleum products all the world over.
-
-At one time, the ultimate success of its vast operations was open to
-question, and many there were who predicted that one day it would
-ignominiously pass on to the list of oil failures. Indeed, it nearly
-came to this on one or two occasions, and it was only owing to the
-remarkable perseverance of those at the head of the Company’s affairs
-that prevented headlong disaster. The Standard Oil Company soon became
-an integral part of the petroleum industry of the United States,
-with which it grew up and steadily assumed a position of world-wide
-importance, though one which was not unassailable. Its ultimate success
-was the chief cause for the multiplication of its critics, and volumes
-have been written of its wrong-doings by writers whose knowledge of
-the petroleum industry was mostly based upon wilful ignorance of
-facts. Consequent upon a decision of the United States Supreme Court
-some seven years ago, which held that the Company was violating the
-Anti-Trust Law of 1890, the Standard had to rid itself of its various
-subsidiary companies (over thirty in number), but it still controls
-almost a similar number of concerns to-day which are actively engaged
-in the production of crude oil and natural gas. It also owns several of
-the largest refineries in the States, while its fleet of oil tankers
-will, when present building is completed, be considerably over 300,000
-tonnage. Its capital is $100,000,000, and during the last twelve
-years it has paid in dividends over 400 per cent., in addition to an
-additional cash distribution of 40 per cent.
-
-The Standard Oil Company of New York is another immense concern
-which, with a capital of $75,000,000, has its headquarters in the
-Standard’s palatial building at 26 Broadway, New York, and interested
-principally in the refining industry, its facilities permitting of
-20,000 barrels of crude oil being treated daily. Another very prominent
-company is the Standard Oil Company of California, with its capital
-of $100,000,000. This Company not only produces its crude oil, but
-refines it, and engages in the export business. Its refinery at Point
-Richmond, California, is reported to be the largest in the world, for
-it can treat 65,000 barrels of crude oil daily. Its fleet of tankers
-and barges for the export trade is capable of carrying at one trip over
-100,000 tons of products, and, for the purposes of its land transport,
-it possesses pipe-lines over 1,000 miles long.
-
-The second place of importance in regard to the petroleum enterprises
-of international influence must be given to the “Shell” Transport
-and Trading Company, Ltd., whose headquarters are in London, with
-that well-known oil pioneer, Sir Marcus Samuel, Bart., as its
-Chairman. Formed just over twenty years ago for dealing primarily as
-a transporter of petroleum products in the Far East, the “Shell” has
-steadily and continuously extended the sphere of its operations, until
-the result of a carefully thought out policy is seen in its activities
-in almost every oil-field of the world. Just over ten years ago, the
-Company made an amalgamation with the Royal Dutch Petroleum Company,
-or, to give it its correct name, the Koninklijke Nederlandsche
-Maatschappij tot exploitatie van petroleum-bronnen in Nederlandsch
-Indie (whose capital is £12,500,000), and by reason of so doing it
-materially increased its international position and importance. The
-“Shell”--Royal Dutch Combine to-day has a controlling interest in some
-of the largest operating companies in Russia, Roumania, California,
-Mexico, Venezuela, and other oil regions, one of its most recent
-extensions being in its advent into the petroleum industry of Trinidad.
-The “Shell” Company has a record for successful industrial expansion
-which is achieved by few companies in the world of commerce: its
-capital is now £15,000,000, and in dividends it has distributed over
-300 per cent. Among the “Shell” Company’s associated concerns, that
-of the Anglo-Saxon Petroleum Company, Ltd., which is responsible for
-the ocean transportation of the petroleum products of the Combine,
-takes first place, with its capital of £8,000,000; while the Asiatic
-Petroleum Company, Ltd. (capital, £2,000,000), ranks but second. The
-recent fusion of the interests of Lord Cowdray with those of the
-“Shell,” for the latter has acquired the control of the great Mexican
-interests associated with the Pearson company, is another instance of
-how the “Shell” Company has trod the road of progress and expansion.
-
-The sudden rise to fame of the oil-fields of Mexico gave birth to what
-may safely be referred to as one of the most enterprising amalgamations
-of capital in the long list of concerns associated with the petroleum
-industry, and it is gratifying to note that this enterprise was solely
-due to the well-known firm of Messrs. S. Pearson & Sons. Lord Cowdray,
-as the head, was not slow to recognize the vast opportunities which
-awaited the development of the Mexican fields, and the formation of the
-Mexican Eagle Oil Company, in 1908, with a capital of now $60,000,000
-(Mexican), or about £6,125,000 sterling, was the initial result of his
-efforts. It was just about this time that the serious fuel oil era
-opened, both in this country and others, and it was evident that, for
-the purpose of adequately distributing the products of Mexican oil (and
-these include the whole range of refined oils, as well as fuel oil),
-there was room for the operations of a large and influential company.
-The Anglo-Mexican Petroleum Company, Ltd., was accordingly formed, with
-Lord Cowdray’s son (the Hon. B. C. Pearson) as Chairman, and a capital
-of £2,000,000, to deal with the importation and distribution of Mexican
-petroleum products on the English market.
-
-As already stated, the control of this Company has now passed under the
-“Shell,” and its future expansion is assured, both at home and abroad.
-
-The Mexican products are transported from Mexico to this country, as
-well as many others, by the large fleet of Eagle oil tankers, the
-property of the Eagle Oil Transport Company, Ltd., which admirably
-managed concern of £3,000,000 capital is also presided over by the Hon.
-B. C. Pearson. The Eagle Company possesses the largest oil tankers
-afloat, many of them carrying over 15,000 tons of bulk oil, though
-others to be built are to be considerably larger; an 18,000 ton tanker
-is, indeed, already in commission.
-
-Another highly important enterprise in the world of petroleum is that
-of the Burmah Oil Company, Ltd., which, as its name suggests, is
-occupied with the petroleum industry in Burmah, and catering for the
-almost unlimited needs of the Far East in regard to refined petroleum
-products. It controls enormous acres of oil-bearing territory held
-under lease from the Burmah Government, possesses extensive refineries
-at Rangoon, and has quite a fleet of oil tankers. Its capital is
-three and a half millions sterling, and its consistent success may be
-judged from the fact that it has paid over 400 per cent. in dividends.
-Of comparatively recent date, the Burmah Oil Company has turned its
-attention to other fields, particularly to Trinidad, but it is in
-connection with the development and subsequent operations of the fields
-of Burmah that the Company is chiefly concerned.
-
-The Anglo-Persian Oil Company, Ltd., which is closely allied to the
-Burmah Oil Company (capital, £6,000,000) by reason of its large
-interest therein, has come into prominence during recent years,
-owing mainly to its agreement with the British Government, in which
-the latter has invested over £4,000,000 of the public moneys in
-the enterprise. The Company acquired its petroliferous concessions
-from several interests, including the Burmah Oil Company and the
-late Lord Strathcona, which had been granted to them by the Persian
-Government. When I mention that the Company’s concessions cover an
-area of, approximately, half a million square miles, and on which
-petroleum has been found in quantity on the majority of the small
-areas already examined, the significance of the enterprise will be
-somewhat appreciated. There is no doubt that the company’s success is
-doubly assured, and, from this point of view, the investment of the
-public moneys in the undertaking has been sound finance, especially
-when one considers the important part which petroleum products
-under British control must hereafter play. As a matter of fact, the
-proposition is a well-paying one to-day, and it is asserted that the
-Government’s interest is already worth no less than £20,000,000. Persia
-as an oil-producing country will occupy a very prominent place. The
-Company has immense petroleum-producing fields: it has its pipe-line
-to seaboard, and its refineries, situate on the Persian Gulf. It
-has possibilities without end, and it is rapidly availing itself of
-them. The Company also now owns the entire capital of three formerly
-German-owned concerns in London--the British Petroleum Company,
-Ltd., the Homelight Oil Company, Ltd., and the Petroleum Steamship
-Company, Ltd. Consequent upon these acquisitions, the Anglo-Persian
-Company, Ltd., is making arrangements to enter the English market as
-distributors of Persian petroleum. The question of transport need
-not here be considered, for the Anglo-Persian Oil Company owns the
-entire capital of the British Tanker Co., Ltd. The Company thus has
-the producing and refining possibilities: the acquired concern of the
-Tanker Company, together with that of the Petroleum Steamship Co.,
-will suffice to bring its products to the English market, while the
-large distributing organizations of the British Petroleum Company and
-the Homelight Oil Company, owning depots all over the country, will
-offer easy facilities for the distribution of the petroleum products
-imported. My argument all along has been that the advent of the British
-Government into this enterprise--I will not call it a speculation,
-though at one time it looked like it--places all that private
-enterprise, which in the past has brought all the products of petroleum
-to our own doors at a reasonable and competitive price, at absolute
-discount. Ever since the petroleum industry assumed proportions of
-international magnitude, and we became more or less (I should have said
-more than less) dependent upon our necessities being met by petroleum
-and its products, private enterprise has always kept us well supplied.
-But the Anglo-Persian Oil Company has made immense headway since the
-Government took an interest in its operations, and its appearance on
-the English market as a refiner of Persian crude oil and a distributor
-of the products thereof, is but a reflection of the prolific nature
-of the vast fields in Persia which it possesses. It has decided upon
-having its first English oil refinery near Swansea, and it is reported
-that this will be in operation before the end of 1920. It has also
-secured the control of the Scottish shale oil refineries which will be
-used for the treatment of Persian crude oil when occasion warrants.
-
-[Illustration: A FEW OF THE BURMAH COMPANY’S PROLIFIC PRODUCERS]
-
-One might go on to interminable length in briefly referring to the
-great concerns whose operations have been responsible for the expansion
-of the world’s petroleum industry to its present magnitude, but the
-exigencies of space prevent this. The brief list of companies already
-referred to represents an amalgamation of capital to the extent of
-nearly £120,000,000 sterling, though this cannot be considered as
-representing more than one-half the total world’s investments in
-petroleum enterprises.
-
-So far, I have not touched with the magnitude of the petroleum
-companies operating in the distributing oil trade of England, though,
-to some extent, this may be gathered from the references to such
-companies as the “Shell,” the Anglo-Mexican Petroleum Company, etc.
-
-Practically the first company of any magnitude to distribute petroleum
-products in this country was the Anglo-American Oil Co., Ltd., which
-has actively engaged in this branch of commerce for the past thirty
-years. It imported and dealt in American oils long before the advent of
-the companies before mentioned, and, to-day, is certainly one of the
-largest--if not the largest--company so engaged. Its name is known in
-every hamlet in the country: its tank cars are seen on every railway,
-and its depots are to be found in every centre throughout the length
-and breadth of the land. Its name is legion. Its capital is £3,000,000,
-and it is to the Anglo-American Oil Company that, throughout the
-clatter of European War, the credit is due for having supplied us with
-those almost unlimited quantities of petroleum products so necessary
-both on sea and land, for it is the largest importer in the Kingdom.
-As its name implies, the “Anglo” deals mostly in American petroleum
-products: it was at one time the importing concern of the Standard
-Oil Company, but to-day it purchases broadcast in an endeavour--and a
-very successful one, too--to supply the British consumer with all the
-petroleum products he requires.
-
-The present chapter deals, I feel, most inadequately with the general
-question of concerns whose interests are directly allied with that of
-petroleum; in fact, it was not my desire to give an encyclopaedia of
-the thousands of companies so engaged, but, rather, to suggest the
-names of a few which have secured world-wide distinction.
-
-
-
-
-CHAPTER XIV
-
-STATISTICAL
-
-
-THE WORLD’S OUTPUT OF PETROLEUM
-
-The world’s total production of crude oil for 1917, and for the period
-of years 1857 to 1917, is given in the following table. The details are
-given in barrels, which, divided by seven, will give the output in tons.
-
-                         PRODUCTION.          TOTAL PRODUCTION.
-                            1917.                 1857-1917.
-
-                    _Barrels     _P.C.       _Barrels     _P.C.
-                     of 42        of          of 42        of
-                    Gallons._     Total._     Gallons._   Total._
-  COUNTRY.
-  United States     *335,315,601   66·98   4,252,644,003  60·89
-  Russia             #69,000,000   13·78   1,832,583,017  26·24
-  Mexico              55,292,770   11·04     222,082,472   3·18
-  Dutch East Indies  ¶12,928,955    2·58     175,103,267   2·51
-  India               #8,500,000    1·70      98,583,522   2·41
-  Galicia              5,965,447    1·19     148,459,653   2·13
-  Japan and Formosa    2,898,654    0·58      36,065,454   0·52
-  Roumania             2,681,870    0·54     142,992,465   2·05
-  Peru                 2,533,417    0·51      21,878,285   0·31
-  Trinidad             1,599,455    0·32       5,418,885   0·08
-  Argentina            1,144,737    0·23       3,047,858   0·04
-  Egypt                1,008,750    0·20       2,768,686   0·04
-  Germany                995,764    0·20      15,952,861   2·30
-  Canada                 205,332    0·04      24,112,529   3·50
-  Italy                   50,334}   0·11         947,289   0·01
-  Other countries      #§530,000}                927,000   0·01
-                     ------------------------------------------
-      Total          500,651,086   100·00  6,983,567,246 100·00
-                     ==========================================
-
-  * Quantity marketed.
-  # Estimated.
-  ¶ Includes British Borneo.
-  #§ Includes 19,167 barrels produced in Cuba.
-
-
-THE PETROLEUM IMPORT TRADE OF THE UNITED KINGDOM
-
-The imports of petroleum products into the United Kingdom for the past
-seven years are given in the following table. Those for 1917 are only
-approximate quantities inasmuch as, toward the end of the year, the
-Custom House authorities decided for the time being not to compile such
-statistics for general use. The figures in every case are given in
-gallons--
-
-  ------------------------+-----------+-----------+-----------+-----------+
-          OILS.           |   1912.   |    1913.  |   1914.   |   1915.
-  ------------------------+-----------+-----------+-----------+-----------+
-  Petroleum (Crude)       | 12,742    |  1,108,900| 15,105,588|   ----
-  Petroleum (lamp)        |146,030,093|157,141,241|150,131,233|141,424,353
-  Petroleum (lubricating) | 69,327,061| 67,962,493| 66,646,512| 69,974,170
-  Petroleum (Gas Oil)     | 73,273,526| 65,949,677| 83,105,346| 88,089,202
-  Petroleum (Fuel Oil)    | 48,135,845| 95,062,187|212,675,855| 27,288,850
-  Petroleum (Other prdcts)|    963,856|     24,178|     17,942|    705,353
-  Motor Spirit            | 79,590,155|100,858,017|119,030,155|146,334,702
-  ------------------------+-----------+-----------+-----------------------
-
-  ------------------------+-----------+-----------+-----------+-----------+
-          OILS.           |   1916.   |   1917.   |   1918.   |   1919.
-  ------------------------+-----------+-----------+-----------+-----------+
-  Petroleum (Crude)       |   ----    |   ----    |   ----    |  7,577,549
-  Petroleum (lamp)        |126,840,494|127,958,665|148,021,234|153,371,858
-  Petroleum (lubricating) | 80,443,694| 87,779,737|102,273,841| 65,832,998
-  Petroleum (Gas Oil)     | 57,160,493| 31,303,820| 38,835,460| 30,033,002
-  Petroleum (Fuel Oil)    | 22,646,669|440,582,168|842,405,536|265,405,203
-  Petroleum (Other prdcts)|  1,728,092|   ----    |   ----    |   ----
-  Motor Spirit            |163,965,834|139,270,181|192,959,054|200,332,648
-  ------------------------+-----------+-----------+-----------------------+
-
-
-AMERICA’S CRUDE OIL PRODUCTION DURING THE PAST FIFTY YEARS
-
-The output of crude petroleum in the oil-fields of America during the
-past fifty years has been as under, the figures being given in barrels
-of 42 gallons (usually reckoned at seven to the ton)--
-
-  _Year._       _Barrels._
-
-   1869      4,215,000
-   1870      5,260,745
-   1871      5,205,234
-   1872      6,293,194
-   1873      9,893,786
-   1874     10,926,945
-   1875      8,787,514
-   1876      9,132,669
-   1877     13,350,363
-   1878     15,396,868
-   1879     19,914,146
-   1880     26,286,123
-   1881     27,661,238
-   1882     30,349,897
-   1883     23,449,633
-   1884     24,218,438
-   1885     21,858,785
-   1886     28,064,841
-   1887     28,283,483
-   1888     27,612,025
-   1889     35,163,513
-   1890     45,823,572
-   1891     54,292,655
-   1892     50,514,657
-   1893     48,431,066
-   1894     49,344,516
-   1895     52,892,276
-   1896     60,960,361
-   1897     60,475,516
-   1898     55,364,233
-   1899     57,070,850
-   1900     63,620,529
-   1901     69,389,194
-   1902     88,766,916
-   1903    100,461,337
-   1904    117,080,960
-   1905    134,717,580
-   1906    126,493,936
-   1907    166,095,335
-   1908    178,527,355
-   1909    183,170,874
-   1910    209,557,248
-   1911    220,449,391
-   1912    222,935,044
-   1913    248,446,230
-   1914    265,762,535
-   1915    281,104,104
-   1916    300,767,158
-   1917    335,315,601
-   1918    360,000,000
-
-
-ROUMANIA’S CRUDE OIL PRODUCTION DURING THE PAST FIFTY YEARS
-
-Roumania’s crude oil production for the past fifty years is given in
-the following table in barrels of 42 gallons (seven to the ton). The
-officially recorded output goes back as far as 1857, when the twelve
-months’ yield was just under 2,000 barrels. During 1861, the production
-passed the 10,000 barrel mark for the first time, and six years later
-reached 50,000 barrels for the year. The figures are as under--
-
-  _Year._      _Barrels._
-
-   1868        55,369
-   1869        58,533
-   1870        83,765
-   1871        90,030
-   1872        91,251
-   1873       104,036
-   1874       103,177
-   1875       108,569
-   1876       111,314
-   1877       108,599
-   1878       109,300
-   1879       110,007
-   1880       114,321
-   1881       121,511
-   1882       136,610
-   1883       139,486
-   1884       210,667
-   1885       193,411
-   1886       168,606
-   1887       181,907
-   1888       218,576
-   1889       297,666
-   1890       383,227
-   1891       488,201
-   1892       593,175
-   1893       535,655
-   1894       507,255
-   1895       575,200
-   1896       543,348
-   1897       570,886
-   1898       776,238
-   1899     1,425,777
-   1900     1,628,535
-   1901     1,678,320
-   1902     2,059,935
-   1903     2,763,117
-   1904     3,599,026
-   1905     4,420,987
-   1906     6,378,184
-   1907     8,118,207
-   1908     8,252,157
-   1909     9,327,278
-   1910     9,723,806
-   1911    11,107,450
-   1912    12,976,232
-   1913    13,554,768
-   1914    12,826,578
-   1915    12,029,913
-   1916    10,298,208
-   1917     2,681,870
-
-
-MEXICO’S REMARKABLE PROGRESS IN CRUDE OIL PRODUCTION
-
-Fourteen years ago, the crude petroleum production in the oil-fields
-of Mexico was officially recorded for the first time. Its remarkable
-progress since that time will be seen from the following table, the
-figures being in barrels of 42 gallons--
-
-  _Year._       _Barrels._
-
-   1904        220,653
-   1905        320,379
-   1906      1,097,264
-   1907      1,717,690
-   1908      3,481,610
-   1909      2,488,742
-   1910      3,332,807
-   1911     14,051,643
-   1912     16,558,215
-   1913     25,902,439
-   1914     21,188,427
-   1915     32,910,508
-   1916     39,817,402
-   1917     55,292,770
-   1918     64,605,422
-
-
-GALICIAN CRUDE OIL PRODUCTION
-
-The output of crude petroleum in the Galician fields during the past
-thirty years is given herewith--
-
-  _Year._       _Barrels._
-
-   1888       466,537
-   1889       515,268
-   1890       659,012
-   1891       630,730
-   1892       646,220
-   1893       692,669
-   1894       949,146
-   1895      1,452,999
-   1896      2,443,080
-   1897      2,226,368
-   1898      2,376,108
-   1899      2,313,047
-   1900      2,346,505
-   1901      3,251,544
-   1902      4,142,159
-   1903      5,234,475
-   1904      5,947,383
-   1905      5,765,317
-   1906      5,467,967
-   1907      8,455,841
-   1908     12,612,295
-   1909     14,932,799
-   1910     12,673,688
-   1911     10,519,270
-   1912      8,535,174
-   1913      7,818,130
-   1914      5,033,350
-   1915      4,158,899
-   1916      6,461,706
-   1917      5,965,447
-   1918      4,341,050
-
-
-GERMANY’S CRUDE OIL PRODUCTION
-
-Official figures were first recorded of Germany’s crude oil production
-in 1880, when the total output for the twelve months was about 9,000
-barrels. For the past thirty years, the yearly output has been as
-under--
-
-  _Year._        _Barrels._
-
-   1888         84,782
-   1889         68,217
-   1890        108,296
-   1891        108,929
-   1892        101,404
-   1893         99,390
-   1894        122,564
-   1895        121,277
-   1896        145,061
-   1897        165,745
-   1898        183,427
-   1899        192,232
-   1900        358,297
-   1901        313,630
-   1902        353,674
-   1903        445,818
-   1904        637,431
-   1905        560,963
-   1906        578,610
-   1907        756,631
-   1908      1,009,278
-   1909      1,018,837
-   1910      1,032,522
-   1911      1,017,045
-   1912      1,031,050
-   1913      1,002,700
-   1914        936,400
-   1915        960,430
-   1916        948,320
-   1917        995,764
-   1918        820,310
-
-
-EXPORTS OF PETROLEUM PRODUCTS FROM THE UNITED STATES
-
-The following table gives the total export movement of petroleum
-products from the United States from the year 1865, when American
-petroleum products commenced to have an international overseas market--
-
-  _Year._      _Gallons._       _Value in
-                           Dollars._
-
-   1918   2,714,430,452  344,290,444
-   1917   2,596,900,000  253,021,000
-   1916   2,607,482,000  201,721,000
-   1915   2,328,725,000  142,941,000
-   1914   2,240,033,000  139,900,000
-   1913   2,136,465,000  149,316,000
-   1912   1,883,479,000  124,210,000
-   1911   1,768,731,000  105,922,000
-   1910   1,546,067,000   99,090,000
-   1909   1,561,671,000  105,999,000
-   1908   1,443,537,000  104,116,000
-   1907   1,257,430,000   84,855,000
-   1906   1,257,949,000   84,041,000
-   1905   1,123,334,000   79,793,000
-   1904     984,424,000   79,060,000
-   1903     941,699,000   67,253,000
-   1902   1,106,208,000   72,302,000
-   1901   1,034,643,000   71,112,000
-   1900     967,252,000   75,611,000
-   1899     999,713,000   56,273,000
-   1898   1,034,249,000   56,125,000
-   1897     973,514,000   62,635,000
-   1896     890,458,000   62,383,000
-   1895     884,502,000   46,660,000
-   1894     908,252,000   41,499,000
-   1893     904,337,000   42,142,000
-   1892     715,471,000   44,805,000
-   1891     710,124,000   52,026,000
-   1890     664,491,000   51,403,000
-   1889     616,195,000   49,913,000
-   1888     578,351,000   47,042,000
-   1887     592,803,000   46,824,000
-   1886     577,628,000   50,199,000
-   1885     574,628,000   50,257,000
-   1884     513,660,000   47,103,000
-   1883     505,931,000   44,913,000
-   1882     559,954,000   51,232,000
-   1881     397,660,000   40,315,000
-   1880     423,964,000   36,208,000
-   1879     378,310,000   40,305,000
-   1878     338,841,000   46,574,000
-   1877     309,198,000   61,789,000
-   1876     243,660,000   32,915,000
-   1875     221,955,000   30,078,000
-   1874     247,806,000   41,245,000
-   1873     187,815,000   42,050,000
-   1872     145,171,000   34,058,000
-   1871     149,892,000   36,894,000
-   1870     113,735,000   32,668,000
-   1869     100,636,000   31,127,000
-   1868      79,456,000   21,810,000
-   1867      70,255,000   24,407,000
-   1866      50,987,000   24,830,000
-   1865      25,496,000   16,563,000
-
-
-RUSSIA’S CRUDE OIL PRODUCTION DURING THE PAST FIFTY YEARS
-
-The output of crude petroleum in the Russian oil-fields during the
-past fifty years is given in the following table. For the purpose of
-comparison, the figures are given in barrels of 42 gallons, rather than
-in poods (62 to the ton) which is the usual manner of recording Russian
-quantities. The figures are as under--
-
-  _Year._       _Barrels._
-
-   1869       202,308
-   1870       204,618
-   1871       165,129
-   1872       184,391
-   1873       474,379
-   1874       583,751
-   1875       697,364
-   1876     1,320,528
-   1877     1,800,720
-   1878     2,400,960
-   1879     2,761,104
-   1880     3,001,200
-   1881     3,601,441
-   1882     4,537,815
-   1883     6,002,401
-   1884    10,804,577
-   1885    13,924,596
-   1886    18,006,407
-   1887    18,367,781
-   1888    23,048,787
-   1889    24,609,407
-   1890    28,691,218
-   1891    34,573,181
-   1892    35,774,504
-   1893    40,456,519
-   1894    36,375,428
-   1895    46,140,174
-   1896    47,220,633
-   1897    54,399,568
-   1898    61,609,357
-   1899    65,954,968
-   1900    75,779,417
-   1901    85,168,556
-   1902    80,540,044
-   1903    75,591,256
-   1904    78,536,655
-   1905    54,960,270
-   1906    58,897,311
-   1907    61,850,734
-   1908    62,186,447
-   1909    65,970,250
-   1910    70,336,574
-   1911    66,183,691
-   1912    68,019,208
-   1913    62,834,356
-   1914    67,020,522
-   1915    68,548,062
-   1916    72,801,110
-   1917    69,000,000
-
-
-
-
-INDEX
-
-
-  Advantages of liquid fuel, 78
-  A few notable petroleum enterprises, 148
-  American petroleum exports, 163
-  America’s crude oil production, 160
-  America, the petroleum industry in, 8
-  Anglo-American Oil Company, Ltd., the, 156
-  Anglo-Persian Oil Company, Ltd., the, 153
-
-  Baku-Batoum pipe-line, 24, 69
-  Baku, boring operations in, 22
-  ----, the oil-fields of, 19
-  British Empire, petroleum in, 114
-  Burmah Oil Company, Ltd., the, 152
-  ----, the oil fields of, 35
-
-  California petroleum industry, 9
-  Canada, petroleum in, 118
-  Chemical composition of petroleum, 52
-  Cooking by means of oil, 93
-
-  Distillation of Scottish oil shales, 144
-  Drilling methods for oil, 41
-  Dutch Indies, petroleum in the, 23
-
-  Egyptian oil-fields, the, 116
-  Empire oil, 114
-  England, petroleum in, 104
-  England’s petroleum trade, 160
-
-  Famous oil companies, 148
-  Fifty years’ American production, 160
-  ---- ---- Russian production, 164
-
-  Galicia’s crude oil production, 162
-  Galicia, the oil-fields of, 36
-  Germany’s attempts at oil production, 39
-  ---- march on Roumania, 30
-  ---- output of crude oil, 162
-
-  Hand-dug wells in Roumania, 29
-  Heathfield, natural gas in, 109
-  How petroleum is produced, 41
-  ---- ---- is refined, 51
-  ---- the Scottish shales are operated, 136
-
-  Internal combustion engines, 95
-
-  Japan, petroleum in, 36
-
-  Liquid fuel in the Navy, 78
-  Lord Cowdray’s enterprise in England, 111
-  ---- ---- ---- Mexico, 16, 151
-
-  Maikop oil boom, the, 20
-  Messrs. Vickers, Ltd., new engines of, 96, 102
-  Methods of drilling wells, 43
-  Mexico’s crude oil production, 161
-  ----- petroleum industry, 12
-
-  Ocean oil transport facilities, 71
-  Oil fuel advantages, 82
-  Origin of petroleum, 3
-
-  Petroleum as fuel, 76
-  ---- in England, 104
-  ---- in historical times, 2
-  Petroleum’s part in the Great War, 123
-  Petroleum, the production of, 41
-  ----, the refining of, 51
-  ----, the world’s output of, 158
-
-  Remarkable oil wells in Mexico, 14
-  Rotary system of drilling, 48
-  Roumania, petroleum industry of, 28
-  Roumania’s crude oil production, 160
-  Russia, petroleum industry of, 18
-  Russia’s crude oil production, 164
-
-  Scottish oil pipe-line, 70
-  ---- shale-oil industry, 132
-  “Shell” Company and the Dutch Indies, 33
-  ---- Transport and Trading Co., the, 150
-  Sir Marcus Samuel, Bart., and toluol supplies, 130
-  Solar oil for gas enrichment purposes, 61
-  Staffordshire, petroleum in, 106
-
-  Texas, the oil-fields of, 10
-  Toluol from Borneo petroleum, 62
-  Transport of petroleum, 63
-  Trinidad, progress in, 117
-
-  Vicker’s oil engines, 102
-
-
-THE END
-
-
-_Printed by Sir Isaac Pitman & Sons, Ltd., Bath, England_
-
-
-
-[Transcriber's Note:
-
-Inconsistent spelling and hyphenation are as in the original.]
-
-
-
-
-
-
-
-End of the Project Gutenberg EBook of Petroleum, by Albert Lidgett
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-
-The Project Gutenberg EBook of Petroleum, by Albert Lidgett
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
-whatsoever.  You may copy it, give it away or re-use it under the terms of
-the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org.  If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-Title: Petroleum
-
-Author: Albert Lidgett
-
-Release Date: August 16, 2016 [EBook #52825]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK PETROLEUM ***
-
-
-
-
-Produced by deaurider, Wayne Hammond and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
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-</pre>
-
-
-<div id="coverpage">
-<img src="images/cover.jpg" alt="" />
-</div>
-
-<div class="block_border">
-<p class="ph1">
-The Wallsend Slipway &amp; Engineering Company, Ltd.<br />
-
-<span class="x-large">WALLSEND-ON-TYNE</span><br />
-
-<span class="large">MARINE ENGINE &amp; BOILER BUILDERS &amp; SHIP REPAIRERS</span><br />
-
-<span class="medium"><i>Manufacturers of Installations for</i></span><br />
-
-<span class="x-large">BURNING LIQUID FUEL</span><br />
-
-<span class="table">
-<img src="images/i_f01.jpg" alt="" /><br />
-<span class="small">Installation mounted on a Tray</span><br />
-</span>
-
-<span class="medium table"><b>Horse Power</b> of Boilers for which Installations<br />
-have been supplied by the Company exceeds<br />
-<b>3,000,000 h.p.</b></span>
-
-<span class="medium table">
-  <span class="trow">
-    <span class="tcell">Head Office and Works&mdash;</span>
-    <span class="tcell">WALLSEND-ON-TYNE</span>
-  </span>
-  <span class="trow">
-    <span class="tcell">Telegraphic Address&mdash;</span>
-    <span class="tcell">“WALL,” NEWCASTLE-ON-TYNE</span>
-  </span>
-  <span class="trow">
-    <span class="tcell">London Office&mdash;</span>
-    <span class="tcell">30 GREAT ST. HELENS. E C. 3</span>
-  </span>
-</span></p>
-</div>
-
-<div class="block_border">
-<div class="figcenter">
-<img src="images/i_f02.jpg" alt="" />
-</div>
-
-<p class="ph1">ANGLO-MEXICAN
-PETROLEUM CO., LTD.</p>
-
-<p class="table">Exporters and marketers of the
-products of the Mexican Eagle
-Oil Co., Ltd., including Mexican
-Fuel Oil and Diesel Oil, Mexphalte,
-Fluxphalte, Mexican
-Eagle Bitumen, Lubricants, Gas
-Oil, Kerosene and Motor Spirit.</p>
-
-<p class="ph1">EAGLE OIL TRANSPORT
-COMPANY, LIMITED.</p>
-
-<p class="table">Owners of the fleet of modern
-Oil Tank Steamers engaged in the
-transport of the above products.</p>
-
-<p class="ph1">BOWRING PETROLEUM
-COMPANY, LIMITED.</p>
-
-<p class="table">Marketing Agents in the United
-Kingdom for Mex Motor Spirit
-and Kerosene, etc.<br /></p>
-
-<p class="figcenter">
-<i>Head Offices</i>:<br />
-16. FINSBURY CIRCUS.<br />
-&mdash;LONDON. E.C. 2&mdash;<br />
-<br />
-<i>Telephone:<br />
-LONDON WALL 1200 (Twenty Lines)</i><br />
-</p>
-</div>
-
-<div class="block_border">
-<div class="figcenter">
-<img src="images/i_f03.jpg" alt="" />
-<p class="caption">Oil Well Supply Co</p>
-
-<p class="table"><i>Oil and “OILWELL” have grown up together.
-The oldest and largest manufacturers of well
-drilling tools.</i></p>
-</div>
-
-<img class="table" src="images/deco.png" alt="" />
-<p class="table">DRILLING PLANT of every description<br />
-<br />PUMPING OUTFITS for every service<br />
-<br />PIPE-LINES and STORAGE TANKS</p>
-<img class="table" src="images/deco.png" alt="" />
-<p class="table"><small>TRADE</small> <span class="x-large">“OILWELL”</span> <small>MARK</small></p>
-<p class="table">Dashwood House,<br />
-LONDON, E.C. 2</p>
-</div>
-
-<div class="block_border">
-<p class="ph1">ANGLO-AMERICAN OIL
-COMPANY LIMITED</p>
-
-<p class="table"><i>Importers, Refiners and Distributors</i></p>
-
-<p><b><i>REFINED PETROLEUM OILS</i></b></p>
-
-<blockquote>
-
-<p class="hang">WHITE ROSE (Water White), ROYAL
-DAYLIGHT and</p>
-
-<p class="hang">CROWN DIAMOND&mdash;for Household use.</p>
-
-<p class="hang">ANGLO’S VAPORISING OIL&mdash;for Oil
-Engines, Agricultural Tractors, etc.</p></blockquote>
-
-<p><b><i>MOTOR SPIRIT</i></b></p>
-
-<blockquote>
-
-<p class="hang">PRATT’S AVIATION&mdash;Refined to super-excellence
-for Aeroplanes and Motor Cars.</p>
-
-<p class="hang">PRATT’S PERFECTION&mdash;for all classes of
-Motor Cars.</p>
-
-<p class="hang">TAXIBUS&mdash;for Commercial Vehicles.</p>
-
-<p class="hang">ANGLO’S BENZOL&mdash;for Motor Cars and
-Commercial Vehicles.</p>
-
-<p class="hang">ANGLO’S VICTORY SPIRIT&mdash;a perfect
-Petrol-Benzol blend.</p></blockquote>
-
-<p class="hang">FUEL OIL&mdash;for Diesel Engines, Furnaces, Ships’
-Bunkers, etc.</p>
-
-<p class="hang">GAS OIL&mdash;for Gas-making.</p>
-
-<p class="hang">LUBRICATING OILS AND GREASES,
-PARAFFIN WAX AND SCALE.</p>
-
-<p class="hang">NUJOL&mdash;Finest Medicinal Oil.</p>
-
-<p class="caption"><span class="smcap">Head Office</span>:<br />
-<span class="smcap">36 Queen Anne’s Gate, Westminster, S.W. 1</span><br />
-
-<span class="copy"><i>Branches and Depots throughout the United Kingdom.</i></span></p>
-</div>
-
-<p class="ph1">
-<span class="large"><i>The Largest Makers of</i></span><br />
-
-OIL <span class="large">STORAGE</span> TANKS<br />
-
-<span class="medium"><i>Tanks of Any Size Supplied and Erected Anywhere.</i></span><br />
-
-<img class="table" src="images/i_f05.jpg" alt="" />
-<span style="display: none;"><i>WHESSOE<br />
-FOUNDRY <span class="large">CO., LTD.,</span></i><br />
-DARLINGTON, ENGLAND<br />
-Established 1790]</span>
-
-<span class="x-large">PETROLEUM REFINERY PLANTS</span><br />
-
-<span class="medium table">
-  <span class="trow">
-    <span class="tcell">Telegrams&mdash;</span>
-    <span class="tcell i4">London Office:&mdash;</span>
-  </span>
-  <span class="trow">
-    <span class="tcell i8">“WHESSOE, LONDON.”</span>
-    <span class="tcell tdr">106 CANNON STREET,</span>
-  </span>
-  <span class="trow">
-    <span class="tcell i8">“WHESSOE, DARLINGTON.”</span>
-    <span class="tcell tdr">E.C.4</span>
-  </span>
-</span>
-</p>
-
-<div id="frontispiece" class="figcenter">
-<img src="images/i_f07.jpg" alt="" />
-<p class="caption">ENGLAND’S FIRST OIL WELL IN DERBYSHIRE</p>
-
-<p class="table">(Drilled under Government authority and brought into
-production in June, 1919)</p>
-
-<p class="author copy">
-<i>Frontispiece</i><span class="pagenum" id="Page_i">i</span></p>
-</div>
-
-<h1>
-<span class="x-large"><i>PITMAN’S COMMON COMMODITIES<br />
-AND INDUSTRIES</i></span><br />
-
-PETROLEUM<br />
-
-<span class="small">BY</span><br />
-
-<span class="x-large">ALBERT LIDGETT</span><br />
-
-<span class="medium table">EDITOR OF THE “PETROLEUM TIMES”<br />
-LATE EDITOR OF THE “PETROLEUM REVIEW”</span><br />
-
-<span class="medium table"><span class="smcap">London</span><br />
-<span class="smcap">Sir Isaac Pitman &amp; Sons, Ltd., 1 Amen Corner, E.C.4</span><br />
-<span class="smcap">Bath, Melbourne and New York</span></span><br />
-<span class="pagenum" id="Page_ii">ii</span>
-
-<span class="copy table">
-<span class="smcap">Printed by Sir Isaac Pitman<br />
-&amp; Sons, Ltd., London, Bath,<br />
-Melbourne and New York</span></span>
-<span class="pagenum" id="Page_iii">iii</span></h1>
-
-<h2 id="PREFACE">PREFACE</h2>
-
-<p>Although numerous volumes have been written upon
-petroleum, and some very educational works on this
-important subject are to be found in technological
-literature, it is strange that prior to the appearance of
-this little book, it has been impossible to turn to any
-publication which deals with this Common Commodity
-of Commerce in a popular manner.</p>
-
-<p>Of a truth, we to-day live in an age of Oil, for the products
-of petroleum are inseparable from our daily life.
-Refined petroleum breathes the breath of power to the
-internal combustion engine which claims a realm of its
-own on land and sea, in the air, and under ocean waters;
-it also gives artificial light to countless millions in all
-corners of the world under a variety of circumstances
-and dissimilar conditions, while the wheels of
-industry unceasingly revolve consequent upon oil
-lubrication.</p>
-
-<p>And in no sphere of commercial and industrial activity
-has greater progress been made during the past few
-decades than in regard to the multiplication in the uses
-of the products of petroleum. The avenues for advantageous
-consumption are constantly increasing, and
-this to such an extent that the production of
-crude petroleum&mdash;enormous though this is&mdash;has been
-outstripped by the demands for the refined product.</p>
-
-<p>In the following pages I have striven to deal with the
-chief phases of the petroleum industry in a manner
-which, I have reason to believe, will be acceptable to
-the general reader, and the fact that the volume is
-<span class="pagenum" id="Page_iv">iv</span>
-written in language free from technicalities, will, I
-trust, render it particularly interesting to those who
-would know something of that immense class of
-commercial products covered by the name “Petroleum.”</p>
-
-<p class="author">
-<span class="smcap">Albert Lidgett.</span></p>
-
-<p class="smcap">Royal Automobile Club,<br />
-<span class="i4">Pall Mall,</span><br />
-<span class="i8">London, S.W.1.</span>
-<span class="pagenum" id="Page_v">v</span></p>
-
-<h2 id="CONTENTS">CONTENTS</h2>
-
-<table>
-  <tr class="small">
-    <td>CHAP.</td>
-    <td></td>
-    <td class="tdr">PAGE</td>
-  </tr>
-  <tr>
-    <td></td>
-    <td><a href="#PREFACE">PREFACE</a></td>
-    <td class="tdr">iii</td>
-  </tr>
-  <tr>
-    <td class="tdr">I.</td>
-    <td><a href="#CHAPTER_I">PETROLEUM AND ITS ORIGIN</a></td>
-    <td class="tdr">1</td>
-  </tr>
-  <tr>
-    <td class="tdr">II.</td>
-    <td><a href="#CHAPTER_II">THE OIL-FIELDS OF THE WORLD</a></td>
-    <td class="tdr">6</td>
-  </tr>
-  <tr>
-    <td class="tdr">III.</td>
-    <td><a href="#CHAPTER_III">HOW PETROLEUM IS PRODUCED</a></td>
-    <td class="tdr">41</td>
-  </tr>
-  <tr>
-    <td class="tdr">IV.</td>
-    <td><a href="#CHAPTER_IV">THE REFINING OF PETROLEUM</a></td>
-    <td class="tdr">51</td>
-  </tr>
-  <tr>
-    <td class="tdr">V.</td>
-    <td><a href="#CHAPTER_V">TRANSPORT BY LAND AND SEA</a></td>
-    <td class="tdr">63</td>
-  </tr>
-  <tr>
-    <td class="tdr">VI.</td>
-    <td><a href="#CHAPTER_VI">PETROLEUM AS FUEL</a></td>
-    <td class="tdr">76</td>
-  </tr>
-  <tr>
-    <td class="tdr">VII.</td>
-    <td><a href="#CHAPTER_VII">PETROLEUM AS A LIGHTING AGENT</a></td>
-    <td class="tdr">89</td>
-  </tr>
-  <tr>
-    <td class="tdr">VIII.</td>
-    <td><a href="#CHAPTER_VIII">INTERNAL COMBUSTION ENGINES</a></td>
-    <td class="tdr">95</td>
-  </tr>
-  <tr>
-    <td class="tdr">IX.</td>
-    <td><a href="#CHAPTER_IX">PETROLEUM IN ENGLAND</a></td>
-    <td class="tdr">104</td>
-  </tr>
-  <tr>
-    <td class="tdr">X.</td>
-    <td><a href="#CHAPTER_X">PETROLEUM IN THE BRITISH EMPIRE</a></td>
-    <td class="tdr">114</td>
-  </tr>
-  <tr>
-    <td class="tdr">XI.</td>
-    <td><a href="#CHAPTER_XI">PETROLEUM’S PART IN THE GREAT WAR</a></td>
-    <td class="tdr">123</td>
-  </tr>
-  <tr>
-    <td class="tdr">XII.</td>
-    <td><a href="#CHAPTER_XII">THE SCOTTISH SHALE-OIL INDUSTRY</a></td>
-    <td class="tdr">132</td>
-  </tr>
-  <tr>
-    <td class="tdr">XIII.</td>
-    <td><a href="#CHAPTER_XIII">A FEW NOTABLE PETROLEUM ENTERPRISES</a></td>
-    <td class="tdr">148</td>
-  </tr>
-  <tr>
-    <td class="tdr">XIV.</td>
-    <td><a href="#CHAPTER_XIV">STATISTICAL</a></td>
-    <td class="tdr">158</td>
-  </tr>
-  <tr>
-    <td class="tdr"></td>
-    <td><a href="#INDEX">INDEX</a></td>
-    <td class="tdr">165</td>
-  </tr>
-</table>
-
-<p><span class="pagenum" id="Page_vi">vi</span></p>
-
-<div class="block_border">
-<p class="figcenter">
-<img src="images/i_f13.jpg" alt="" />
-</p>
-
-<p class="table">Taken from an actual photo of a trip spear with
-mechanic alongside for comparison of size. This
-is for 21 inch O.D. drive pipe. We have facilities
-for producing the heaviest tools required.</p>
-
-<p class="ph2">The OIL WELL ENGINEERING CO., LTD.</p>
-
-<p class="copy"><i>Works</i>:</p>
-
-<h3>CHEADLE HEATH, STOCKPORT</h3>
-
-<p class="table">The largest Manufacturers of Oil Well Drilling
-Plant and oil Well Supplies in the British Empire
-<span class="pagenum" id="Page_vii">vii</span></p>
-</div>
-
-<h2 id="LIST_OF_ILLUSTRATIONS">LIST OF ILLUSTRATIONS</h2>
-
-<table>
-  <tr>
-    <td colspan="3" class="tdr x-small">PAGE</td>
-  </tr>
-  <tr>
-    <td><a href="#frontispiece">ENGLAND’S FIRST OIL WELL</a></td>
-    <td class="tdr"><i>Frontispiece</i></td>
-  </tr>
-  <tr>
-    <td><a href="#THE_GLEN_POOL">THE GLEN POOL</a></td>
-    <td class="tdr">11</td>
-  </tr>
-  <tr>
-    <td><a href="#GEOLOGICAL_SECTION_SHOWING_OIL_SANDS">GEOLOGICAL SECTION SHOWING OIL SANDS</a></td>
-    <td class="tdr">13</td>
-  </tr>
-  <tr>
-    <td><a href="#A_GUSHER_UNDER_CONTROL">A GUSHER UNDER CONTROL</a></td>
-    <td class="tdr">15</td>
-  </tr>
-  <tr>
-    <td><a href="#DERRICK_OF_AN_AMERICAN_OIL_WELL">DERRICK OF AN AMERICAN OIL WELL</a></td>
-    <td class="tdr">17</td>
-  </tr>
-  <tr>
-    <td><a href="#ROUMANIAN_HAND_DUG_WELLS">ROUMANIAN HAND-DUG WELLS</a></td>
-    <td class="tdr">27</td>
-  </tr>
-  <tr>
-    <td><a href="#BUSTENARI_THE_ROUMANIAN_OIL_REGION">BUSTENARI&mdash;THE ROUMANIAN OIL REGION</a></td>
-    <td class="tdr">31</td>
-  </tr>
-  <tr>
-    <td><a href="#EARLY_BURMESE_OIL_PRODUCTION_METHODS">EARLY BURMESE OIL PRODUCTION METHODS</a></td>
-    <td class="tdr">34</td>
-  </tr>
-  <tr>
-    <td><a href="#EARLY_JAPANESE_DRILLING_METHOD">EARLY JAPANESE DRILLING METHOD</a></td>
-    <td class="tdr">35</td>
-  </tr>
-  <tr>
-    <td><a href="#VIEW_IN_THE_GALICIAN_FIELDS">VIEW IN THE GALICIAN FIELDS</a></td>
-    <td class="tdr">37</td>
-  </tr>
-  <tr>
-    <td><a href="#OILWELL_HEAVY_ROTARY_OUTFIT">“OILWELL” HEAVY ROTARY OUTFIT</a></td>
-    <td class="tdr">47</td>
-  </tr>
-  <tr>
-    <td><a href="#PRIMITIVE_METHOD_OF_TRANSPORT">PRIMITIVE METHOD OF TRANSPORT</a></td>
-    <td class="tdr">65</td>
-  </tr>
-  <tr>
-    <td><a href="#OIL_PIPE_LINE_CONNECTIONS">OIL PIPE-LINE CONNECTIONS</a></td>
-    <td class="tdr">67</td>
-  </tr>
-  <tr>
-    <td><a href="#A_MAMMOTH_TANKER">A MAMMOTH TANKER</a></td>
-    <td class="tdr">73</td>
-  </tr>
-  <tr>
-    <td><a href="#TAKING_OIL_FUEL_ABOARD">TAKING OIL FUEL ABOARD</a></td>
-    <td class="tdr">81</td>
-  </tr>
-  <tr>
-    <td><a href="#LIQUID_FUEL_BURNERS">LIQUID FUEL BURNERS</a></td>
-    <td class="tdr">83</td>
-  </tr>
-  <tr>
-    <td><a href="#OIL_FUEL_FOR_MARINE_PURPOSES">OIL FUEL FOR MARINE PURPOSES</a></td>
-    <td class="tdr">85</td>
-  </tr>
-  <tr>
-    <td><a href="#THE_SCARAB_OIL_BURNER">THE “SCARAB” OIL BURNER</a></td>
-    <td class="tdr">87</td>
-  </tr>
-  <tr>
-    <td><a href="#AN_OIL_COOKER">AN OIL COOKER</a></td>
-    <td class="tdr">93</td>
-  </tr>
-  <tr>
-    <td><a href="#VICKERS_NEW_ENGINE_FRONT_VIEW">VICKERS’ NEW ENGINE (FRONT VIEW)</a></td>
-    <td class="tdr">99</td>
-  </tr>
-  <tr>
-    <td><a href="#VICKERS_NEW_ENGINE_REAR_VIEW">VICKERS’ NEW ENGINE  (REAR VIEW)</a></td>
-    <td class="tdr">99</td>
-  </tr>
-  <tr>
-    <td><a href="#HIGH_DUTY_ENGINE_FOR_LIGHT_CRAFT">HIGH DUTY ENGINE FOR LIGHT CRAFT</a></td>
-    <td class="tdr">101</td>
-  </tr>
-  <tr>
-    <td><a href="#LOW_DUTY_MARINE_ENGINE">LOW DUTY MARINE ENGINE</a></td>
-    <td class="tdr">101</td>
-  </tr>
-  <tr>
-    <td><a href="#THE_PUMPHERSTON_OIL_SHALE_WORKS">THE PUMPHERSTON OIL SHALE WORKS</a></td>
-    <td class="tdr">138</td>
-  </tr>
-  <tr>
-    <td><a href="#SOME_BURMAH_PRODUCERS">SOME BURMAH PRODUCERS</a></td>
-    <td class="tdr">154</td>
-  </tr>
-</table>
-
-<p><span class="pagenum" id="Page_viii">viii</span></p>
-
-<div class="block_border">
-<p class="ph1">THE<br />
-
-PETROLEUM TIMES</p>
-
-<p class="table">
-  <span class="trow">
-    <span class="tcell tdr">PUBLISHED WEEKLY</span>
-    <span class="tcell tdr">PRICE 6d.</span>
-  </span>
-</p>
-
-<p class="ph2">The International<br />
-
-Petroleum Journal</p>
-
-<p>“The Petroleum Times” is Edited by
-<span class="smcap">Albert Lidgett</span> and is the most influential
-and widely circulated petroleum
-journal printed in the United Kingdom.</p>
-
-<p><i>The fact that you are reading this advertisement
-suggests that it has some interest
-to you. Then write for a specimen copy
-which will gladly be sent.</i></p>
-
-<p class="copy"><i>Editorial and Publishing Offices</i>:</p>
-
-<p class="ph2">BROAD STREET PLACE,<br />
-LONDON, E.C.2
-<span class="pagenum" id="Page_1">1</span></p>
-</div>
-
-<p class="ph1">PETROLEUM</p>
-
-<h2 id="CHAPTER_I">CHAPTER I<br />
-
-<span class="medium">PETROLEUM AND ITS ORIGIN</span></h2>
-
-<p>In dealing with the question of petroleum and its
-origin, the subject can well be defined under two
-headings: one, the origin of the word “petroleum”;
-the other, the origin of the mineral itself. As to the
-former, this is a matter of historical interest; of the
-latter, the question is still in doubt&mdash;and the doubt
-becomes even the more doubtful, the more the question
-is debated.</p>
-
-<p>Let us, therefore, take first the word “petroleum”
-as we know it to-day. It covers a multitude of products
-derived from the refining of crude oil, though the word
-does not suggest any of them. It is quite a generic
-term, and in a general way represents the whole of
-that ever-increasing family of hydrocarbons&mdash;the refined
-products of crude oil. There is no doubt that it derives
-its name from the Latin <i>petra oleum</i>, which, literally,
-is rock oil, and equivalents of the name are found in
-all languages. Even in modern practice we use the
-word, though not in a specific sense, while our own
-Government usually refers to “petroleum oil,” which,
-of course, involves tautology. Crude petroleum is
-known throughout the oil-fields of the world as denoting
-the crude oil coming from the wells: then we have
-petroleum spirit, otherwise the lightest form of refined
-oil; we have petroleum distillate, designating an
-<span class="pagenum" id="Page_2">2</span>
-illuminating oil; but, “petroleum oil” is, it is to be
-regretted, generally used as suggesting some form of
-petroleum product.</p>
-
-<p>Though the petroleum industry&mdash;in its commercial
-sense&mdash;only goes back some sixty years, the use of
-petroleum can be traced to Biblical times, for was it
-not the great Prophet Elisha who told the widow to
-“Go, sell the oil and pay thy debts and live”?</p>
-
-<p>Job also speaks of the rock which poured him out
-rivers of oil; in Maccabees we find that the priests hid
-the fire which they took from the altar in a deep pit
-without water; while Nehemiah called the liquid which
-burst into flame and kindled a great fire by the name
-“Nephthar, which is as much as to say, a cleansing;
-but many call it Nephai.” And so, in many parts of
-the Old as well as in the New Testament, oil is clearly
-referred to, and, in Biblical times, as much later, was
-looked upon as a sacred fire.</p>
-
-<p>Many ancient authors make extensive reference to oil,
-prominent among them being Herodotus, who described
-the methods adopted at the pits of Kirab for the raising
-of the oil, which liquid “gives off a very strong
-odour.”</p>
-
-<p>Petroleum, as known in Biblical times, and as so
-widely known to-day, occurs in greater or less quantity
-throughout the world, and it is found in the whole range
-of strata of the earth’s crust, from the Laurentian rocks
-to the most recent members of the Quaternary period,
-though it is found in commercial quantities almost
-wholly in the comparatively old Devonian and Carboniferous
-formations on the one hand or in the various
-divisions of the comparatively young Tertiary rocks on
-the other.</p>
-
-<p>The problem of the origin of petroleum has been the
-subject of considerable scientific controversy for many
-<span class="pagenum" id="Page_3">3</span>
-years. Not a few of the leading scientists hold to the
-theory that petroleum is derived from metallic carbides
-lying far beneath the porous strata in which the oil
-is stored by Nature, and that even at the present time
-the process is in operation. This idea, which may be
-termed the inorganic theory of petroleum origin, was
-considered to have received substantial support when
-it was found that the action of water on the carbides of
-certain metals resulted in the liberation of hydrocarbons.</p>
-
-<p>The view that petroleum is of organic origin is to-day
-almost universally accepted, although there is no general
-agreement either as to whether petroleum is derived
-from vegetable or animal matter, or as to the forms of
-life that provided for its genesis. In certain places in
-the world&mdash;notably on the eastern side of the Caspian
-Sea and also near the Mediterranean&mdash;there is some
-conversion of organic matter into petroleum actually
-to be seen to-day. It is not difficult, as the late Sir
-Boverton Redwood, Bart., pointed out in an address
-before the Royal Institution of Great Britain in 1918,
-to account for the formation of adequate deposits of
-the necessary material. In the comparatively deep
-and quiescent water along the margin of the land in
-past ages, there would be abundant opportunity for the
-deposition not only of the remains of marine animals and
-plants, but also of vegetable matter brought down to
-the coast by the water courses, and the changes which
-the earth has undergone would result in the burial of
-these substances under sedimentary mineral matter,
-the deposits thus formed being ultimately, as the result
-of further alterations in the earth’s surface, frequently
-found occupying positions far removed from the sea,
-and sometimes beneath immense thicknesses of
-subsequent deposits.</p>
-
-<p>That vegetable matter may be the source of certain
-<span class="pagenum" id="Page_4">4</span>
-petroleums is an opinion that has found increasing
-evidence to support it. There are two kinds of vegetable
-matter which are possible, terrestrial and aquatic, and
-in the deltaic conditions that characterize so many
-oil-fields, either could be equally well appealed to as a
-source of accumulation. The extensive coal and lignite
-deposits in many geological periods bear eloquent
-testimony to the presence of carbonaceous matter far
-in excess of that required to provide proved supplies
-of petroleum. Every important coal-field demonstrates
-the fact that vegetable matter can be partially converted
-into bituminous compounds or hydrocarbons by natural
-processes. Marsh gases often occur in great quantities
-in faulted zones in the coal measures, though the
-bituminous substances found in coal are not true
-bitumens that dissolve in the usual solvents, while
-the tars derived from the destructive distillation of
-coal in no way resemble natural petroleums or the
-products of oil-shale distillation.</p>
-
-<p>In spite, however, of the outstanding differences
-between petroleum, oil-shales and coal, I might here
-point out in favour of the vegetable theory of origin,
-that actual petroleum and true bitumens have been
-found in some coals, though in small quantities, while
-solid paraffins have been extracted by means of pyridine
-and chloroform. Again, low temperature distillations
-have yielded petroleum hydrocarbons, all of which
-appear to indicate that even when coal was the overwhelming
-product, at certain times and places the
-conditions were merging into those which could yield
-petroleum. There is no doubt that each of the various
-views expressed as to the organic origin of petroleum
-contains elements of truth, and it is reasonable to
-assume that a substance so varied in its physical and
-chemical properties as petroleum has not in all cases
-<span class="pagenum" id="Page_5">5</span>
-been created under precisely the same conditions, or
-from an exactly similar source.</p>
-
-<p>Summing up the whole question of origin, however,
-the balance of opinion points to its being the result of
-organic action, and that the petroleum which we now
-find in the Palaeozoic and Tertiary rocks is substantially
-of the same geological age as the rocks themselves.</p>
-
-<p>Volumes of technological literature have been written
-upon this complex question of petroleum origin, and
-though these may be of intense interest to the student
-of geology, the brief references which I have already
-given to the question are sufficient for the purpose of
-this little publication.</p>
-
-<p>The geographical distribution of petroleum throughout
-the two hemispheres is no less wide than the geological.
-The deposits mainly occur along well-defined lines, often
-associated with the mountain ranges. This is chiefly
-due to the formation, in the elevatory process, of minor
-folds which have arrested and collected the oil in richly
-productive belts.
-<span class="pagenum" id="Page_6">6</span></p>
-
-<h2 id="CHAPTER_II">CHAPTER II<br />
-
-<span class="medium">THE OIL-FIELDS OF THE WORLD</span></h2>
-
-<p>Ever since petroleum and its products entered the
-realm of commercial commodities, there has been a
-ceaseless search throughout the two hemispheres for
-crude oil, and to-day there are comparatively few
-countries in the world where the presence of petroleum
-has not been proved. The ever-expanding uses of
-petroleum, which in their train have called for a continually
-increasing demand for crude oil, have given
-an impetus to the search for commercially productive
-oil-fields, which, in mining history, has no parallel.
-On the one hand, we have those important oil-producing
-regions which embrace enormous regions of the United
-States, Mexico, Russia, Roumania, the Dutch Indies,
-India, and Galicia; on the other, we find comparatively
-recent enterprise which is bringing into prominence the
-newer oil-producing regions of Egypt, Trinidad, Canada,
-the Argentine, Algeria, and various parts of Australia
-and Japan, though in several of these latter mentioned
-countries, the production of petroleum has been
-carried on by private means for not only many years,
-but even for centuries.</p>
-
-<p>It naturally follows that, with the constant withdrawal
-of large supplies of crude oil from Mother Earth, Nature’s
-stores must be growing less, and it is not surprising, therefore,
-to hear, with persistent regularity, alarming rumours
-of the coming dearth of crude oil. Experts have devoted
-considerable time and thought in an endeavour to
-arrive at a conclusion as to the length of time it will
-take for the withdrawal of practically the whole of the
-crude oil from the known deposits in the more developed
-<span class="pagenum" id="Page_7">7</span>
-fields: their conclusions, however, are widely different,
-for while some assert that in the United States, for
-instance, the known fields will cease to be commercially
-productive within forty years, others there are who
-declare that centuries must elapse before the question
-of a failing supply need call for serious consideration.</p>
-
-<p>But there is one point which must not be overlooked
-in this connection, and that is the fact that, while thus
-far very few thoroughly developed oil-fields have shown
-signs of permanent decay, there are numerous others
-which, while having already furnished conclusive proof
-of their productivity, have, for the most part, been
-but slightly developed. Each passing year registers
-the incoming of fresh oil-producing areas, while numerous
-regions in practically every part of the world, giving
-much promise of the success of ultimate oil developments,
-are as yet virgin territory.</p>
-
-<p>The cry of possible shortage of supply was, fortunately,
-made at the opportune moment: it was a word of
-warning, and was taken to heart especially by those
-associated with the development of the older producing
-oil-fields. In these fields&mdash;whether we look to America
-or Russia&mdash;there has always been considerable waste
-of crude oil, mostly in regard to furnishing power for
-oil-field operations, while the natural gases which exude
-from the wells themselves, and to which reference is
-made in another chapter, have, in times past, been
-allowed to pass uncontrolled into the atmosphere.
-To-day, however, we see conservation in every direction&mdash;thanks
-to the application of scientific and engineering
-knowledge, combined with the exercise of care&mdash;and
-there is no doubt that this new factor will tend in a
-greater degree than may at first be imagined toward
-the preservation of Nature’s stores of crude oil for
-unlimited time.
-<span class="pagenum" id="Page_8">8</span></p>
-
-<p>With these few general remarks, let us proceed to
-briefly survey the principal oil-fields of the world,
-leaving those which are in the process of development
-or exploitation to later consideration.</p>
-
-<p><span class="smcap">The United States.</span>&mdash;In no other country has such
-continuous progress been recorded in connection with
-the production of petroleum as in the case of the United
-States. Quite recently, the U.S. Geological Survey
-estimated that there are no less than 9,000 square miles
-of oil-bearing territory in the States, yet the petroleum
-industry was not commercially established until the
-early sixties of the last century. It was in Pennsylvania
-that the industry had its birth, and the troubles which
-beset Drake, the pioneer, have filled many pages of
-early oil literature. His first well, which produced
-quite a modest yield of crude oil, was at Titusville, Pa.,
-which spot soon became a thriving town. And as
-Pennsylvania was the scene of the early successes, it
-also became the pivot round which the petroleum
-industry of the States prospered for many years. Until
-1885, the Pennsylvanian fields furnished over 98 per
-cent. of the production of crude oil: then a gradual
-decline set in, until, at the present time, Pennsylvanian
-regions do not produce 10 per cent. of the oil output
-of the United States. No sooner had the petroleum
-industry been firmly established in Pennsylvania than
-an active search was made for the precious fluid in
-various parts of the States, and one by one new oil
-regions were opened up, but it is interesting to recall
-the fact that, even in the first developed oil-producing
-region, no district has been entirely abandoned as
-exhausted of oil, for to-day wells are being pumped
-quite close to Drake’s first well and the scene of the
-birth of the American petroleum industry. In the
-zenith of its prosperity, the Pennsylvanian field produced
-<span class="pagenum" id="Page_9">9</span>
-nearly 5,000,000 tons of crude oil per annum, but to-day
-the output has fallen off nearly 40 per cent.</p>
-
-<p>When it is mentioned that the output of crude
-petroleum from the various fields of the United States
-last year was over 40,000,000 tons, the magnitude of
-America’s oil industry will at once be apparent. The
-regions known as the Mid-Continent fields&mdash;and which
-embrace the extensive oil-producing regions of Kansas
-and Oklahoma&mdash;are responsible for a very large portion
-of this output. Each field has its various “pools,”
-the most famous of this part, perhaps, being the Cushing
-pool, which came into prominence but a few years ago.
-Toward the end of 1914, it was estimated that the daily
-output of Cushing was 35,000 tons of crude oil. Cushing,
-like all other prolific oil districts, has many interesting
-stories associated with its rapid rise as an oil-producing
-centre, and there are instances on record where, in the
-course of a few days, land values have increased tenfold.</p>
-
-<p>The rise of the Californian fields, too, is an example
-of the rapidity with which oil regions can be developed.
-California’s output in 1919 was, roughly, 120,000,000
-barrels of crude oil, or over 14,000,000 tons. It possesses
-nearly 900 square miles of oil-lands, and though at
-one time a great difficulty was experienced in disposing
-of the crude oil production, since it was of a somewhat
-low grade, the position has now been reversed, and the
-consumption of petroleum products is greater than the
-supply. With the improvement of the methods of
-drilling, and the debut of the rotary system, it has been
-possible not only to drill to much greater depths, but
-to considerably reduce the time requisite for drilling a
-well to the oil sands. Californian records for quick
-drilling with the rotary machine show that wells have
-been got down to the producing sands, in some fields
-nearly 4,000 feet below the surface, within one month.
-<span class="pagenum" id="Page_10">10</span>
-This deep drilling policy, which is now much in vogue
-among Californian oil operators, has proved the existence
-at the greater depth of larger volume of oil of far better
-quality than that met with in the shallow strata, and
-it is to the discovery and consequent development of
-the deeper oil horizons that much of California’s recent
-advance is due.</p>
-
-<p>Though but of small significance, the oil-wells in
-Summerland, Cal., call for mention for the reason that
-these are drilled in the sea at quite a distance from the
-coast. The encroachment of sea-water to the wells
-themselves is prevented by the continuance of the tubes
-in the wells to a height above the level of high-water
-mark, the produced oil being piped to the mainland.</p>
-
-<p>There is no doubt that a wonderful future awaits
-California in regard to its oil export trade. The Far
-East is largely drawing upon the State for crude oil for
-treatment in the Far Eastern refineries: the oil-burning
-vessels of the Pacific rely upon Californian fuel oil for
-their supplies, while the opening of the Panama Canal,
-and the establishment of oil storage depots there, has
-brought California within easy transport distance of
-the European markets. During the past few years
-several cargoes of Californian refined oil have, in fact,
-come upon the English market.</p>
-
-<p>The oil-fields of Texas have, perhaps, witnessed more
-“boom” periods than any other oil regions of the
-States. The Gulf coastal fields which embrace Texas
-and Louisiana, came into prominence some seventeen
-years ago, and they were not long in recording an output
-of over 5,000,000 tons in a single twelve months. The
-prolific districts of Spindle Top, Sour Lake, Humble, etc.,
-attracted rapid attention, and the speculator in oil
-lands became immensely rich. But these boom periods
-cannot be said to be of much real value to the oil
-<span class="pagenum" id="Page_11">11</span>
-<span class="pagenum" id="Page_12">12</span>
-industry, for they are always followed by times of
-depression, when fortunes are lost almost as quickly
-as they have been made. To-day, the Gulf coast fields
-have settled down to a period of steady expansion;
-systematic development is taking place in every field,
-and, as in California, the policy of deep drilling has
-been eminently successful.</p>
-
-<div id="THE_GLEN_POOL" class="figcenter">
-<img src="images/i_p011.jpg" alt="" />
-<p class="caption">THE GLEN POOL&mdash;ONE OF AMERICA’S OIL PRODUCING CENTRES</p>
-</div>
-
-<p>Space forbids my entering into details respecting the
-more recently developed or partially exploited fields of
-America, but it is safe to say that there is scarcely a
-single State that does not hold out hope for profitable
-oil development: this is evidenced by the large amounts
-of new capital which are to-day finding employment in
-regions which are only commencing their oil-field
-history.</p>
-
-<p>There is no other oil-producing country in the world
-where the petroleum industry has reached such a highly
-organized state as in the United States. Each producing
-field is connected by means of underground pipe-lines
-with the trunk pipe-line system, by which it is possible
-to pump oil from the most distant fields direct to the
-Atlantic seaboard. Some of the principal lines are
-hundreds of miles in length. In another chapter I deal
-with this wonderful system of oil transportation: it is,
-therefore, unnecessary here to more than mention it
-<i>en passant</i>. The oil-refining branch of the American
-petroleum industry is also particularly well organized
-and up to date, but with this subject, too, I deal at
-length elsewhere.</p>
-
-<div id="GEOLOGICAL_SECTION_SHOWING_OIL_SANDS" class="figcenter">
-<img src="images/i_p013.jpg" alt="" />
-<p class="caption">A TYPICAL GEOLOGICAL SECTION SHOWING THE OIL
-SANDS</p>
-</div>
-
-<p><span class="smcap">Mexico.</span>&mdash;The oil-fields of Mexico can claim to have
-leapt into prominence at a far more rapid rate than any
-other oil-field of importance in the world. Their
-development has been phenomenal, and from being
-practically unknown sixteen years ago, they now rank
-as the third largest producing regions, coming but next
-<span class="pagenum" id="Page_13">13</span>
-to the United States and Russia. My object in dealing
-with the Mexican fields prior to referring to the Russian
-petroleum industry is that they may be said to form an
-integral part of the fields of the New Continent, and,
-from many points of view, are linked up with the
-petroleum industry of the United States. Indeed, there
-are several authorities who are now urging that it
-is to Mexico that the United States Government must
-look if it is to be in a position to furnish the major
-portion of the petroleum products required for the
-markets of the world. Another reason for my dealing
-with Mexico at the moment is that, when development
-operations are carried a little further, and when ocean
-transport facilities are available for adequately dealing
-with the flood of Mexican petroleum, there is not the
-<span class="pagenum" id="Page_14">14</span>
-slightest doubt that Mexico will rank as the second
-largest country of petroleum production. Its annual
-output of crude oil is, approximately, 8,000,000 tons,
-but even this figure in no way represents the productivity
-of its prolific oil-producing regions, for according
-to the official statement of the Mexican Government the
-production in 1918 represented only 10 per cent. of that
-possible. The Mexican wells have no parallel in the
-world, large as have been some of the oil-fountains in
-Russia.</p>
-
-<p>It will be of great interest here to refer briefly to
-these, and though it would be impossible to detail all
-those Mexican wells which have ranked quite outside
-the limits of ordinary producers, I will touch only upon
-two of these remarkable oil gushers. They both were
-drilled on the properties owned by the well-known
-English firm of Pearsons, the operating company being
-the “Aguila” (Mexican Eagle) Company. It was in 1906
-when the Company commenced active drilling operations
-in Northern Vera Cruz, and though these were very
-successful from the start, it was two years later that
-the famous “Dos Bocas” well came in. A heavy gas
-pressure developed when the rotary drill was down just
-over 1,800 feet, and in a few minutes the internal
-pressure manifested itself by bursting the wire-wrapped
-hose connected with the drilling apparatus. The oil
-then commenced to come to the surface in an immense
-stream, and in twenty minutes the well was beyond
-control. Fissures began to appear in the ground at
-considerable distance from the well, and through these
-came oil and gas. One of these fissures opened directly
-under the boilers, and though the fires had been drawn,
-the gas ignited. The position was well-nigh hopeless
-from the start, the well itself was throwing out an
-8-inch column of oil hundreds of feet in the air. The
-<span class="pagenum" id="Page_15">15</span>
-force of the volume of oil below ground flung the heavy
-English drill pipe out of the well, and soon it became
-impossible to approach within 300 feet of the “mad
-gusher.” The flames of fire are said to have reached
-1,000 feet in height, and inasmuch as all ground round
-the well had fallen into the cavity caused, they were
-over 50 feet in diameter. And for 58 days did this
-gusher burn with all the fury imaginable, its glare
-being seen far out at sea. Anything approaching an
-approximate production of oil from this well will never
-be made: it can safely be recorded, however, that its
-mad flow of oil ran into many millions of barrels, and
-it is placed on record that nearly 2,000,000 tons of solid
-earth were carried away by the force of the oil from
-<span class="pagenum" id="Page_16">16</span>
-the well’s mouth, for a crater of nearly 120,000 square
-metres was formed round the well.</p>
-
-<div id="A_GUSHER_UNDER_CONTROL" class="figcenter">
-<img src="images/i_p015.jpg" alt="" />
-<p class="caption">A GUSHER OF THE MEXICAN EAGLE CO. UNDER
-CONTROL&mdash;A DOME BUILT OVER THE MOUTH</p>
-</div>
-
-<p>Toward the end of 1910 another surprise was in
-store for those in charge of drilling operations for the
-Company, for it was then that the world famous
-“Protero del Llano” gusher came in. This well ranks
-as one of the largest, if not the largest, ever associated
-with the petroleum industry. Its estimated daily flow
-was over 125,000 barrels, and within three months
-the well had produced over 8,000,000 barrels of crude
-oil.</p>
-
-<p>During November, 1919, a new field at Naranjos was
-developed by the Mexican Eagle Co., and the first three
-wells to come into production, commenced to yield
-over 30,000 tons daily.</p>
-
-<p>It says much for the enterprise of the Pearson (Lord
-Cowdray) interests that they have been able to build
-up such a remarkable business in Mexico’s oil industry
-in so comparatively a short space of time. The production
-of crude oil, as everyone knows, is but the first
-link in a long chain of commercial oil operations.
-To-day, the Mexican Eagle Oil Company owns considerably
-over 250 miles of pipe-line (mostly of 8-inch
-capacity), possess several miniature railways, and on
-the fields of production has bulk oil storage accommodation
-for several million barrels of crude oil. It has
-also two large refineries&mdash;one at Minatitlan and another
-at Tampico, which together are capable of handling
-over 5,000 tons (about 35,000 barrels) of crude oil
-daily, and turning the same into a complete range of
-high-grade products&mdash;motor spirit, illuminating oils,
-lubricants, fuel oil, paraffin wax, and an asphalt for
-road-making.</p>
-
-<p>An interesting equipment of this Company in Mexico
-is that of its sea-loading pipe-lines at Tuxpam. Here,
-<span class="pagenum" id="Page_17">17</span>
-the water inside the bar is too shallow to allow the
-gigantic bulk oil-carriers of the Company’s associated
-concern&mdash;the Eagle Oil Transport Company, Ltd.&mdash;to
-come alongside and load. Pipe-lines have accordingly
-been laid on the bed of the sea reaching out to a loading
-terminal a mile and a half out at sea. Here, the pipe-lines
-are connected with the steamers by means of
-flexible hose, and three or four tank vessels can be
-loaded simultaneously from the storage tanks on shore.
-In one recent twelve months alone over 200 oil tankers
-were so loaded in this way, and on the average, each
-was loaded and dispatched within 2½ days, for the
-pipe-line facilities permit of 10,000 tons of oil being
-pumped into the vessel’s tanks every 24 hours.</p>
-
-<div id="DERRICK_OF_AN_AMERICAN_OIL_WELL" class="figcenter">
-<img src="images/i_p017.jpg" alt="" />
-<p class="caption">INSIDE THE DERRICK OF AN AMERICAN OIL WELL</p>
-</div>
-
-<p>There are several large amalgamations of capital
-<span class="pagenum" id="Page_18">18</span>
-interested in the development of the Mexican fields&mdash;American
-and English, while, prior to the war, the
-Germans had anxious eyes upon this growing industry,
-and even formulated plans whereby German interests
-would be largely represented in its future.</p>
-
-<p>While on the subject of the Mexican fields, might I
-say that no other oil-producing regions have, in the
-short space of time during which developments have
-taken place, exercised such an influence upon the
-international oil situation as has Mexico. This may be
-traced to the fact that Mexican oil is an admirable
-liquid fuel, and as such is now in regular use the world
-over. The vast consuming centres in the South
-American Continent have seen that, whereas coal is
-very dear, it is possible to secure almost unlimited
-supplies of Mexican fuel oil almost at their own doors,
-while overseas, consequent upon the advent of the
-fuel oil age, Mexican fuel oil is playing a most important
-part, and to-day is in great demand for the mercantile
-fleet.</p>
-
-<p><span class="smcap">Russia.</span>&mdash;Long before the commercial value of
-petroleum and its products was established, Baku&mdash;the
-present centre of the Russian petroleum industry&mdash;had
-become famous for its “Eternal Fires,” and it
-was to that place the Parsees made pilgrimages
-for over 1,000 years; in fact, centuries before the
-Russians occupied the Caucasus, the tribes of Persia
-eagerly sought the oils of Baku for their curative
-qualities.</p>
-
-<p>The Russian oil-fields have an output of, approximately,
-10,000,000 tons annually, or, roughly, 15 per
-cent. of the world’s total production of crude oil.
-Since the time when the petroleum industry was placed
-upon a commercial footing, the Russian fields have
-produced 230,000,000 tons of petroleum. Enormous
-<span class="pagenum" id="Page_19">19</span>
-though this quantity is, it has been more than doubled
-by the United States.</p>
-
-<p>The oil-fields of Baku have gained a distinction for
-the reason that numerous individual wells have given
-forth a flood of crude oil which has, with very few
-exceptions, been unknown in other petroliferous regions.
-The Baku fields proper embrace the districts of Balakhany,
-Saboontchi, Romany, and Bibi Eibat: the first
-three districts stand on a plateau but a few miles from
-Baku, while Bibi Eibat is located quite near the Caspian
-Sea, on a bay from which the field takes its name.
-One remarkable feature of these fields&mdash;as showing
-their prolific oil content&mdash;is that the four main oil-producing
-districts in Baku have an area of less than
-4,000 acres. It is in this locality that the Russian
-petroleum industry, having had its birth, became
-centred, and though it is known that there are several
-really promising oil areas in this south-western part of
-the Caucasus, the fact that the lands belong to the State
-has been a sufficient stumbling-block to development
-in the past.</p>
-
-<p>Apart from the Baku fields, the most highly developed
-oil-field of importance in Russia is that of Grosny, which
-is situated on the northern slopes of the Caucasian
-range and connected with the Vladicaucas railway by
-a branch line. The Grosny field, however, has only
-been developed during the past fifteen years in what
-may be called a commercial sense, but its operated area
-is almost double that of Baku. It has greatly suffered
-owing to the inadequacy of transport facilities, but in
-1919 a project was drafted to build a pipe-line to the
-Black Sea.</p>
-
-<p>It is not a feature of this little publication that
-minor regions shall be all enumerated, and thus I may
-be forgiven if I refer but to one of the several new
-<span class="pagenum" id="Page_20">20</span>
-districts which have recently attracted the attention
-of both oil operators and speculators. I refer to the
-Maikop fields, which prominently came before the
-British investing public in 1910, and which were directly
-responsible for the oil boom of that year. A few
-months before, a very prolific spouter of oil had been
-struck in Maikop, which was then quite an agricultural
-centre, and enormous excitement followed. Land was
-quickly taken over at ever-increasing prices, and the
-boom, for which English capital was largely responsible,
-lasted for several months. There have been many
-opinions put forward by supposed experts in oil geology
-for and against the Maikop oil region, but the kindest
-thing of all that can be said for the district is that,
-while there was really no justification for the remarkable
-Maikop oil boom of 1910, there was certainly no reason
-why public opinion should so rapidly change in regard
-to its potentialities. I have every reason to believe
-that some day Maikop will justify the optimistic opinions
-held for it during the boom, but in the eyes of the
-English investor the region bears the stamp of fraud,
-for the simple reason that so many have invested their
-savings in it, and have been doomed to acute
-disappointment.</p>
-
-<p>Some millions of English money went into Maikop
-oil enterprises during that ill-fated oil boom, but a
-very small percentage of this went to really prove
-the contents of the lower strata. The fact that the
-ground was simply “scratched” and condemned
-because it did not respond with oil fountains, cannot in
-the slightest affect the ultimate career of the Maikop
-oil region, the presence of oil in which has been known
-even from ancient times. Looking back upon that
-Maikop oil boom, one cannot but express surprise at
-our gullibility generally: we stake our faith and our
-<span class="pagenum" id="Page_21">21</span>
-capital upon what at the best is a sheer gamble, and we
-seem content if we find that anything approaching
-20 per cent. of the money subscribed actually goes
-into the serious development of the scheme which we
-fancied. There are a few who grow suddenly rich upon
-the spoils of such oil booms&mdash;I know some of these
-personally, and to me it has always been a source of
-keen regret that the State does not exercise something
-of a rigid control over these publicly invested funds.
-I cannot here refrain, while on the subject of the Maikop
-oil boom, just making a remark as to the overrated
-value which the public generally attach to the reports
-of many gentlemen looked upon as oil experts. Some
-remarkable stories are associated with the locking up
-(and loss) of English moneys in the Maikop boom, but
-the strangest I know is of a Russian who came to
-England when the boom was at its height, for the
-purpose of selling a number of Maikop oil claims.
-There were many prospective buyers, but it was necessary
-to possess a report from some supposed “oil
-expert.” To save time, the seller of the claims drafted
-what he considered quite an alluring statement, and
-the next day the report, couched in the same language,
-bore the “expert’s” signature. And the “wheeze”
-worked.</p>
-
-<p>But to return to the main subject. Prior to 1870,
-the crude petroleum in the Baku district, as well as
-in the minor fields of Russia, was obtained from surface
-pits, dug by hand, and rarely more than 50 feet deep,
-and the production was carried away from the mouth
-of the shaft in leathern bottles. The general arrangements
-were on the most primitive lines, but, nevertheless,
-the industry&mdash;such as it was then&mdash;thrived. Even to-day
-in several fields in Russia we see the survival of the
-hand-dug wells, but they are steadily becoming a
-<span class="pagenum" id="Page_22">22</span>
-feature of a page of oil-field history which is almost
-filled.</p>
-
-<p>It was in 1873 that Robert Nobel went to Baku, and
-to his enterprise and technical genius a great deal of
-the subsequent rapid development of the Russian
-industry is due. Boring by steam power was introduced,
-and the deeper oil horizons were reached, but, owing
-to the depth at which the strata became commercially
-productive, it was necessary to commence the well with
-a starting diameter of 36-40 inches, so as to ensure the
-requisite depth being obtained with a workable size of
-baler&mdash;for the Baku crude oils are “baled” from the
-wells. Upon the question of baling wells, I shall have
-something to say in another chapter.</p>
-
-<p>Under the improved conditions which were introduced
-in methods of boring and operating the oil-wells, the
-industry steadily expanded, the general awakening of
-boring enterprise being best reflected in the number
-of oil-wells in operation in subsequent years. For
-instance, in 1893, the Baku fields could boast of but
-458 bore-holes; in 1898, the number had increased to
-1,107; in 1903, it was about 2,000; while in 1911, there
-were over 3,000 bore-holes in the Baku fields. There
-has been a steady decline in the number of these bore-holes
-since 1914 due in some part, I assume, to the
-difficulties of securing the requisite materials for new
-boring, combined with the enormous increase in the
-cost of the same. The drilling of the wells in Russia is
-a very expensive item, for they cost from anything over
-&pound;10,000 up to &pound;15,000, and usually take a couple of
-years to drill. But when they are down to the producing
-strata and commence production, it can be taken
-for granted that they will continue, providing ordinary
-care is taken of the well itself, for many years to
-profitably produce.
-<span class="pagenum" id="Page_23">23</span></p>
-
-<p>The Russian petroleum industry is in the hands of
-a large number of operating firms, the majority of
-which work quite independently of each other, and
-these independent firms are responsible for more than
-one-half of the total output. The other production of
-the crude oil, representing certainly over 40 per cent., is
-in the hands of combines representing the large and
-middle-class firms, prominent among which we get the
-firm of Messrs. Nobel Brothers, the “Shell” group,
-and the General Russian Corporation.</p>
-
-<p>The refining of the crude oil is carried out in Baku,
-the portion of the town in which this operation takes
-place being known as Blacktown. It does not belie
-its name either. At one time these refineries, or at
-least many of them, were erected in the centre of the
-town of Baku, or near it, and made it almost uninhabitable
-by their smoke, smell, and refuse, the latter flowing
-into the streets and the harbour. A special district
-was therefore selected, to which all had to remove, and
-it is this portion of the town which forms “Blacktown”
-to-day.</p>
-
-<p>One of the great difficulties of the Russian refining
-industry in its commencement was due to the fact that
-sulphuric acid, so absolute a necessity in petroleum
-refining, had to be brought from Europe at great
-expense, but in 1883, Messrs. Nobel built a factory for
-its production on the spot from Caucasian pyrites,
-mined in the neighbourhood of Alexandropol. Other
-factories for the same purpose and for the regeneration
-of the acids have since that time been established.</p>
-
-<p>As in other great industries, so in regard to the
-methods by which the Russian crude oil is transported
-and to-day handled, great strides forward have been
-made since the early days. Then the whole of the
-prevailing conditions were primitive: crude oil, for
-<span class="pagenum" id="Page_24">24</span>
-instance, was carried from the Baku wells to the refineries
-in skins and barrels loaded on carts or camels. Messrs.
-Nobel Brothers were the first to lay a pipe-line to their
-factory, but later on pipes were laid between the
-refineries and the harbour, these obvious improvements
-meeting with fierce resistance on the part of the workpeople.
-The transport of the refined products from
-Baku to the consumers was equally difficult. There
-was then no railway from Baku to Tiflis, and the only
-way to the Black Sea was thus effectively shut off.
-On the other hand, the navigation of the Volga was only
-possible during six months of the year, while the
-monopoly of water transport on the Caspian Sea
-imposed high rates on all Baku petroleum products.</p>
-
-<p>Improvements were again due to the enterprise of
-Messrs. Nobel Brothers, who built the first cistern
-waggons for transporting oil on the railways, instead
-of using the old wooden barrels, which were far from
-satisfactory. In order, too, to open an outlet on the
-Black Sea, the same firm, in 1889, constructed a pipe-line
-from Mikhailovo to Kvirili, over the Suram mountains.
-Now, of course, we have the great pipe-line
-running from Baku to Batoum, a distance of nearly
-560 miles, and which is responsible for the transport of
-the quantities of Russian oil exported.</p>
-
-<p>But the Russian petroleum industry has always
-existed more or less under a cloud. The old regime of
-Government did not attempt to foster and encourage
-the industry from which it received so much yearly in
-royalties, for it must be recollected that the Russian
-State was the chief gainer by the exploitation of the
-Baku oil lands, owing to the prevalence of the system
-of royalties. It seemed to be content to leave the
-industry to its fate, so long as it received therefrom so
-substantial a sum in royalties, etc. Instances are on
-<span class="pagenum" id="Page_25">25</span>
-record where operating firms pay the Government
-40 per cent., or even more, of their crude oil production
-as royalties&mdash;payment for the privilege of taking the
-oil from the ground. Such conditions have been relentlessly
-imposed, and it is not surprising to find that,
-operating under this burden of expense, numerous firms
-find it quite out of the question to earn profits for their
-shareholders. Several English enterprises come into
-this category, but the fault is not of their seeking; it is,
-however, to be regretted, for once an equitable system
-of payments is arranged, the Russian petroleum industry
-will expand in a healthy manner, and become a much
-greater source of revenue to the State than it is at
-present.</p>
-
-<p>But, apart from the troubles which have to be faced
-by the Baku oil producers, and which we may call
-Governmental, the relation between the employers and
-workpeople is far from being friendly. To-day, of
-course, it is worse than it was under the old regime of
-the Tzar, and then it was bad enough. The oil-field
-workman in Russia is the incarnation of all that is
-unsatisfactory. He works when he thinks he will, he
-labours under grievances, many of which are purely
-imaginary, and then he ventilates his spite upon his
-masters. The pages of history tell of many a conflict
-between capital and labour in the Baku oil-fields, with
-the consequent burning of all that would take fire on
-the fields, and the damaging of the producing wells
-by the workpeople. Instances are placed on record
-where, in a single night, dozens of productive oil-wells,
-which have taken years to bring into production, have
-been irreparably damaged by these oil-field workers.
-Their life, admitted, is nothing to write books upon,
-and their environments are in some cases of the worst
-description, rendered no better by the natural aptitude
-<span class="pagenum" id="Page_26">26</span>
-of the people themselves. But their views upon labour
-are of the most Utopian imaginable. During recent
-years, there has been a sort of combination between
-these operatives, whose socialistic tendencies run high,
-and less than two years ago they collectively put before
-the managers of the oil-fields the conditions under which
-they would in future work. There were nearly 100
-different claims detailed, and a few of these are worthy
-of mention, as showing the appreciation of fairness
-which is instilled in the mind of the Russian oil-field
-worker. In the first place, a 50 per cent. increase in
-wages was desired, this to be retrospective. Holidays
-had to be paid for by the masters, and when the worker
-went on strike he had to receive his full pay from the
-master until such strike was settled. Then the workmen
-had to be represented on the board of management
-of the companies, their houses had to be improved by
-the masters, free railway and tramway accommodation
-had to be provided, etc. Generally, the demands put
-forward were distinctly arbitrary, though in many cases
-very humorous.</p>
-
-<p>Recent events in the conduct of affairs in Russia do
-not suggest that great improvements may be expected
-in the near future, either in regard to the attitude of
-the Government toward the Russian petroleum industry,
-or to the attitude of the workers to those responsible
-for oil-field operations. Even before the European War,
-the Russian petroleum industry was rather on the
-decline. The only hope that can be expressed at this
-juncture is that when Russia possesses a stable government,
-and the country enters upon a period of peaceful
-progress, the Mining Department will take care that
-Russia takes its proper position as one of the most
-important oil-producing countries in the world. But
-before this comes about, there will have to be a complete
-<span class="pagenum" id="Page_27">27</span>
-<span class="pagenum" id="Page_28">28</span>
-revision of the Government’s policy respecting oil
-royalties. The destruction, however, wrought in Baku
-towards the end of 1918 will take several years to make
-good.</p>
-
-<div id="ROUMANIAN_HAND_DUG_WELLS" class="figcenter">
-<img src="images/i_p027.jpg" alt="" />
-<p class="caption">ROUMANIA: A FEW OF THE HAND DUG WELLS IN BUSTENARI</p>
-</div>
-
-<p><span class="smcap">Roumania.</span>&mdash;During comparatively recent time,
-Roumania has come prominently forward as one of
-the large petroleum-producing countries of the world,
-and its yearly output of crude oil, according to latest
-returns, is about 11,000,000 barrels, or, say, 1,600,000
-tons. The production of petroleum in the country,
-however, has been proceeding for centuries, for, in the
-seventeenth century, the peasants were in the habit of
-digging wells by hand and selling the crude oil for
-medicinal purposes, the greasing of cart-wheels, as well
-as for lighting. There are many places in Roumania
-which are named from petroleum, a fact which points
-to the existence of the industry long before the present-day
-methods of extraction were thought of. Several
-hundreds of these hand-dug wells still exist round the
-fringe of the Transylvanian and Carpathian Alps, and
-though many of them have now fallen into decay, there
-are numerous others from which a payable quantity
-of petroleum is extracted by primitive methods.</p>
-
-<p>The hand-dug wells in Roumania are highly interesting
-relics of a period which is now relegated to the past,
-though so long as the Roumanian petroleum industry
-exists, so long will the old hand-dug wells be associated
-with it. These wells are about 5 feet in diameter, and
-are sunk through alternate layers of clay, schisty clay,
-sandy clay, sandstone, and petroliferous sand to the
-more shallow oil horizons. They are dug by workmen
-who descend dressed with the minimum of clothing,
-usually saturated with oil, and wearing a tin hat to
-protect the head from falling stones, etc. The sides of
-the wells are lined with impermeable clay, which is
-<span class="pagenum" id="Page_29">29</span>
-protected by wicker-work. The man is lowered by a
-rope, air being supplied to him by means of bellows.
-At some places the rotary fan was employed more
-recently, but somehow it frequently happened that it
-was operated in the wrong direction, and the unfortunate
-digger was asphyxiated. These old wells have a depth
-of about 450 feet, and though their yield of oil is not
-considerable, it has for many years been a paying
-proposition to those engaged in this primitive method
-of petroleum production. The excavated earth, when
-digging these wells, was brought to the surface in
-buckets, lowered and raised by means of either manual
-labour or horse traction. When the first oil source
-was reached and the extraction of the crude oil commenced,
-this was accomplished by means of the use of
-wooden buckets or leather skins, one being lowered
-empty while the other was raised full. By this means
-it was possible to raise as much as 20 tons of the oil
-per day&mdash;quite a considerable amount, considering the
-primitive means adopted.</p>
-
-<p>Mechanical developments throughout the Roumanian
-oil-fields on a more or less serious scale began about
-1898, as the result of the introduction of foreign capital,
-and, from that time to the present, the history of the
-Roumanian petroleum industry has been one steady
-period of continued expansion. Various systems of
-drilling have been introduced into the work of developing
-old fields or opening up new centres, but in regard to
-these I shall deal at length in another chapter. The
-advent of the rotary method of drilling, however,
-opened up a new era for expansion in 1912, and since
-that time Roumania has made more marked progress
-than at any time previously.</p>
-
-<p>The Roumanian oil-fields, as at present defined, cover
-a region roughly 20 miles in width, and extend to a
-<span class="pagenum" id="Page_30">30</span>
-length of between 300 and 400 miles, with, of course,
-numerous breaks. Of the numerous petroliferous regions
-in Roumania, those of Campina-Bustenari, Gura-Ocnitza,
-Moreni, and Baicoi-Tzintea among them
-provide about 95 per cent. of the total production,
-and, with the one exception of the Moreni field, all
-have been previously exploited by hand-dug wells.</p>
-
-<p>The prosperity of the Roumanian industry has been
-directly the result of the influx of foreign capital, and
-the majority of the 550,000,000 francs employed in it,
-is mostly made up of British, American, and German
-capital. The principal English Company in the fields
-is the Roumanian Consolidated Oil-fields, Ltd., which
-concern, with its capital of one and three-quarter
-millions sterling, represents an amalgamation of many
-small companies.</p>
-
-<p>Space forbids my referring at length to the momentous
-happenings in the Roumanian fields towards the end
-of 1916, but they will ever form one of the most interesting&mdash;and
-at the same time the most tragic&mdash;incidents
-associated with Roumania’s petroleum industry. At
-that time, the German armies were pushing their way
-toward Roumania, and, in fact, having crossed the
-border, were marching on for possession not merely of
-territorial gains, but in order to secure themselves of
-large quantities of petroleum products by capturing the
-prolific oil-fields of the country. It was at that critical
-time that the British Government sent out its Military
-Mission, headed by Colonel (now Sir) John Norton
-Griffiths, completely to destroy all that was valuable in
-connection with the oil-fields, the refineries, and the
-installations. One night the Mission arrived at the
-offices of the Roumanian Consolidated Oil-fields, Ltd.,
-and made its plan of campaign clear. There was
-nothing to be done but to fall in with it, and the following
-<span class="pagenum" id="Page_31">31</span>
-<span class="pagenum" id="Page_32">32</span>
-morning practically everything was destroyed, or
-rather, a start was made to destroy it. And the destruction
-was carried out in a complete manner, for not only
-one, but several concerns which had been steadily built
-up to perfection as the result of many years of careful
-and systematic expansion, were all wiped out, excepting
-in name. The oil-wells were plugged beyond all hope
-of repair, the refineries were dismantled, machinery
-broken, pipe-line connections damaged, and both crude
-and refined oil stocks burned. It was the most tragic
-proceeding ever recorded in oil-field history, but it
-was necessary, and not carried out one day too soon,
-for the incoming armies were dangerously near.</p>
-
-<div id="BUSTENARI_THE_ROUMANIAN_OIL_REGION" class="figcenter">
-<img src="images/i_p031.jpg" alt="" />
-<p class="caption">BUSTENARI&mdash;ROUMANIA’S FAMOUS OIL REGION</p>
-</div>
-
-<p>The Germans lost no time in making good a great
-deal of the damage to the fields, and at the time of
-the armistice it was stated that the crude oil output
-of Roumania was up to 80 per cent. of its pre-war
-level.</p>
-
-<p>Now that the various allied interests are again
-operating in the Roumanian fields, considerable expansion
-of the country’s petroleum industry is being
-planned, though the pre-war German interests therein
-are now taken over by the Allies.</p>
-
-<p>During the past decade Roumania has necessarily
-catered for the export trade, for the volume of crude
-oil produced has been far beyond its requirements.
-The great petroleum storage port of Constantza has
-been made the centre for this export business, and the
-completion of a trunk pipe-line from the Roumanian
-refineries to the port was one of the most recent enterprises
-undertaken by the Roumanian Government prior
-to the war. During the period when Roumania was
-under German control its terminal point was so changed
-that the line ran to a spot which rendered the transport
-of petroleum to Germany a matter of ease. Now,
-<span class="pagenum" id="Page_33">33</span>
-however, Germany’s plans have been frustrated, and
-Roumania’s great pipe-line will have its terminal point
-at Constantza, where all kinds of petroleum products
-can be pumped direct to the oil tankers.</p>
-
-<p><span class="smcap">The Dutch Indies.</span>&mdash;The growth of the petroleum
-industry in the Dutch Indies has been surprisingly
-rapid, and this growth synchronizes with the advent
-of the “Shell” Company into the Far Eastern fields.
-It is stated that there are many hundreds of square miles
-of territory in the East Indian Islands which can be
-remuneratively developed; at the moment, however,
-though but the fringe of exploitation has been touched,
-the production has been amazing. Eighteen years ago,
-it was placed at 300,000 tons of crude oil; last year it
-nearly reached 2,000,000 tons. In Sumatra several
-companies successfully operated for many years, but
-most of them eventually became merged with the
-Royal Dutch Company, whose interests now are also
-those of the “Shell” Company. As to Borneo, the
-“Shell” Company commenced active developments in
-1900, or thereabouts, for it had acquired an area of
-approximately 460 square miles. The fields rapidly
-responded to the drill, and the crude oil production rose
-by leaps and bounds. The crude was of a high-grade
-character, and for a long time it taxed the energies of
-those responsible for the good conduct of the concern,
-as to exactly what should be done with some of the
-refined products. As a matter of fact, some thousands
-of tons were burned, for at that time there was little
-or no demand for motor spirit. I well remember when
-the Company’s Chairman&mdash;Sir Marcus Samuel&mdash;faced
-the shareholders in 1900 and explained that if only the
-Company could realize 6d. per gallon for its motor spirit,
-what handsome profits would accrue. But events have
-marched quickly since those days. The motor-car has
-<span class="pagenum" id="Page_34">34</span>
-come to stay, and what seemed a useless product of the
-Far Eastern oils in the early days of development, is
-now one of the chief sources of revenue. The advent
-of the heavier motor spirits has also been of great
-benefit to the Borneo petroleum industry, for the public
-has grown accustomed to recognize that it is not specific
-gravity which counts in the quality of motor spirit, but
-the closeness of the boiling points of its constituent
-fractions. To-day, the Far Eastern fields supply
-enormous quantities of refined products to the consuming
-markets of the Eastern hemisphere, and so long
-<span class="pagenum" id="Page_35">35</span>
-as the supplying centres continue their present productivity,
-there need be no talk of approaching famine,
-for, if necessary&mdash;providing facilities permitted&mdash;these
-regions could materially increase their present output
-of petroleum products.</p>
-
-<div id="EARLY_BURMESE_OIL_PRODUCTION_METHODS" class="figcenter">
-<img src="images/i_p034.jpg" alt="" />
-<p class="caption">OIL PRODUCTION IN THE EARLY DAYS OF THE
-INDUSTRY IN BURMAH</p>
-</div>
-
-<p><span class="smcap">India</span> also ranks to-day as a very important petroleum
-producing region, the fields of Upper Burmah&mdash;in which
-the Burmah Oil Company operates&mdash;being responsible
-for practically the whole production. In another part
-of this little publication, I deal briefly with this Company’s
-operations, so, for the moment, it is sufficient
-to mention that, though to-day they produce large
-quantities of petroleum, there are several new districts
-which show much promise of new production. For
-many years the Upper Burmah fields were exploited by
-means of very shallow wells: it was only when the
-deeper strata were reached that the potentialities of the
-region became fully manifest.</p>
-
-<div id="EARLY_JAPANESE_DRILLING_METHOD" class="figcenter">
-<img src="images/i_p035.jpg" alt="" />
-<p class="caption">AN OLD JAPANESE WAY OF OPERATING THE WELLS
-<span class="pagenum" id="Page_36">36</span></p>
-</div>
-
-<p><span class="smcap">Japan</span>, as an oil-producing country, affords food for
-an interesting story, for it was here that very early
-attempts were made to develop production. Even in
-the seventh century, the Emperor was presented with
-“burning water” with which the Palace was lighted.
-The crude oil was collected from pools, or, alternately,
-wells were dug by hand, the process of extraction being
-very picturesque, if very primitive. To-day, Echigo is
-the centre of the industry, for which the introduction of
-European methods of drilling have worked wonders
-in regard to progress. The Celestials consume large
-quantities of petroleum, especially for lighting purposes,
-and in spite of the now considerable yields from the
-wells, a gigantic trade is regularly done in imported oils,
-especially those of American origin, for which there is
-a most up-to-date organization for distribution. The
-statement that American petroleum products find their
-way to every quarter of the globe is strangely exemplified
-in Japan (as also in China), where the ubiquitous tin
-container for petroleum can be seen in the most isolated
-parts.</p>
-
-<div id="VIEW_IN_THE_GALICIAN_FIELDS" class="figcenter">
-<img src="images/i_p037.jpg" alt="" />
-<p class="caption">THE GALICIAN FIELDS, SHOWING DAMAGE DONE BY THE RUSSIAN ARMIES
-WHEN RETREATING IN 1916</p>
-</div>
-
-<p><span class="smcap">Galicia.</span>&mdash;Since the commencement of the period
-when petroleum and its products assumed a degree of
-industrial importance, the Galician oil regions have
-attracted considerable attention. The area of the oil-fields
-extends over a length of 200 miles, and in width
-varies from 40 to 60 miles, and though in this territory
-several fields of considerable note have for many years
-been systematically developed, there is enormous scope
-for future operations. Its annual output of crude oil,
-which nearly reached 1,900,000 tons in 1909, is in itself
-suggestive of the extensive manner in which the oil-producing
-fields have been developed during late years.
-The oil-field history of Galicia is particularly interesting,
-for the oil seepages round Boryslaw have been exploited
-<span class="pagenum" id="Page_37">37</span>
-<span class="pagenum" id="Page_38">38</span>
-for very many years. Long before the introduction of
-the drilling methods of modern times, the shallow oil
-sources in the Galician fields were tapped by means of
-the hand-dug wells, but it was only when the first drilled
-well was sunk in 1862 that the real value of the Galician
-ozokerite, which abounds in many places in the oil-fields,
-was appreciated by the operators. This ozokerite is
-one of the most valuable of bitumens, and though found
-in several countries, is nowhere met with in such large
-quantities as in Galicia. The ozokerite there fills the
-fissures in the much disturbed <i>cpaly</i>, and evidently
-originates from a natural process of concentration. The
-mines are operated by modern machinery, and the
-industry in Galicia has reached a stage of great importance,
-some thousands of tons of the mineral being yearly
-raised. The material is refined, and the resulting wax
-serves numerous commercial purposes, the refining
-taking place in the Austro-Hungarian refineries. Considerable
-quantities of the raw material are exported
-to Germany and Russia, while the refined products are
-well known on the export markets. About seven years
-ago, serious water trouble materially reduced the production
-of the Galician oil-wells (for when the water
-courses are not properly shut off, water may encroach
-and cause the loss of the producing well), but the
-trouble was to some extent surmounted by the taking of
-greater care in cementing the wells. The introduction
-and consequent popularity of the modern drilling
-methods which were introduced by Mr. W. H. Margarvey
-in 1882 permitted the testing of the deeper horizons of
-the Galician fields, and to-day wells are by no means
-uncommon with depths up to and sometimes exceeding
-4,000 feet. The Boryslaw-Tustanowice district still
-continues to be the centre of the crude oil production,
-but several new oil areas with great promise have
-<span class="pagenum" id="Page_39">39</span>
-been opened up during the past six years. Naturally,
-the European War has retarded development work
-considerably, and the Galician fields have on more
-than one occasion been the scene of battle. At one
-time in 1915 they passed over to the Russians, but when
-the Russian retreat occurred later from Lemberg,
-considerable damage was done to the fields in order to
-prevent their being of immediate use to the enemy.
-The wells were seriously damaged, and the State refinery
-at Drohobitz was partially dismantled, while immense
-reserves of refined oil stocks were burned.</p>
-
-<p>The Galician oil industry has for years attracted the
-attention of foreign capitalists, for the highly remunerative
-nature of petroleum exploitation is generally
-appreciated. Prior to the European war German
-capital was very largely interested in the Galician
-industry, and the majority of Allied companies had
-Germans as their local representatives, but all this
-is now changed, and in the future Allied capital
-will be considerably increased. The Premier Company
-is the largest English concern in the Galician
-fields.</p>
-
-<p><span class="smcap">Germany</span> has made great endeavours in the past to
-institute a petroleum industry of its own, but no great
-success has been recorded, for while it does possess
-several oil-producing areas, these are only small fields,
-with a very limited yield of heavy petroleums. The
-wells, though producing for many years steadily, do
-not give forth those large quantities of petroleum so
-characteristic of the best wells in other petroleum-producing
-fields, and flowing wells are indeed very rare.
-Germany, therefore, has to look to imported petroleum
-for its large demands.</p>
-
-<p>In a succeeding chapter I refer at length to those oil
-regions which come within the limits of a chapter,
-<span class="pagenum" id="Page_40">40</span>
-“Petroleum in the British Empire”: there is no need
-at the moment to make reference to them here.</p>
-
-<p>Space does not permit my even briefly touching upon
-the many other oil regions of the world which are now
-being successfully operated; it is certain, however, as
-time goes on that their number will be materially
-increased.
-<span class="pagenum" id="Page_41">41</span></p>
-
-<h2 id="CHAPTER_III">CHAPTER III<br />
-
-<span class="medium">HOW PETROLEUM IS PRODUCED</span></h2>
-
-<p>Time was when the engineering aspect of the production
-of petroleum was practically non-existent. The ancients,
-and even those of the last century, were content to
-resort to the most primitive means for winning petroleum
-from the earth. Shallow wells were sunk or dug by
-hand, the eventual securing of the oil being carried
-out by lowering primitive receptacles (generally leather
-bottles) into the hole. It was a period long before the
-advent of the Oil Age, and the methods employed were
-clearly in keeping with the mode of life of that day.
-In practically every oil-producing field of the world&mdash;though
-in this respect the United States is almost an
-exception&mdash;the history records the fact that for many
-years the extraction of oil from the ground was confined
-to the use of the primitive methods which held sway in
-those days&mdash;those associated with the operations of the
-hand-dug wells. In the Far East, notably in Japan, we
-find the first serious attempts to obtain and utilize
-petroleum, for as far back as <span class="smcap">A.D.</span> 615, there were shallow
-wells in existence, from which the “burning water,”
-as it was called, was collected. In Roumania and
-Russia, too, the earlier attempts to create a petroleum
-industry were confined to these methods.</p>
-
-<p>It was only when the demand for petroleum became
-large and consistently increased with the opening up
-of new fields, that we find other and more practical
-methods were introduced for winning larger quantities of
-the oil from the earth. To-day, in every branch of
-the industry associated with petroleum&mdash;whether it be
-<span class="pagenum" id="Page_42">42</span>
-in producing the crude oil, in transporting it, or in
-refining Nature’s product into those numerous commodities
-which are part and parcel of everyday life&mdash;the
-engineering aspect is one of very great importance.
-In fact, throughout the petroleum industry, engineering
-science is the Alpha and Omega. By its means we are
-now able to carefully study the nature of the ground at
-depths of 6,000 feet, and to extract from the deep lying
-strata a wealth of minerals; we are able, too, to transport
-thousands of tons of crude oil daily across thousands of
-miles of continent, while is it not the direct result of
-engineering science which allows over 15,000 tons of
-petroleum products to be carried across the oceans of
-the world in one vessel with the same ease that one
-would take a rowing boat from one side of a lake to
-another?</p>
-
-<p>Great, however, as have been the degrees of progress
-recorded in connection with drilling for petroleum, the
-old methods, generally speaking, and which date back
-to the days of early China, are still largely copied in all
-pole and percussion systems of drilling, and though
-steam has replaced manual labour (and electricity now
-bids fair to replace steam), the operating principles
-to-day are the same as then. The only exception, of
-course, is the advent and growing popularity of the
-rotary method of drilling, to which interesting phase of
-the subject I will briefly refer later.</p>
-
-<p>The old Eastern method of drilling has obviously
-been the forerunner of the Canadian, standard, and
-other systems of to-day, the wire rope replacing the
-use of poles. In oil-field work, the principal types of
-percussion drills used are known (1) as the Pennsylvanian
-cable, (2) the Canadian pole, and (3) the Russian free-fall
-system, and though from time to time many attempts
-have been made to introduce modifications of these,
-<span class="pagenum" id="Page_43">43</span>
-the vast majority have been unsuccessful in their
-operation.</p>
-
-<p>The Pennsylvanian cable system was used for drilling
-the earliest oil-wells in the United States, and doubtless
-took its name from the fact that it was so largely used
-in that oil region. As may also be gathered from the
-name, the principal feature in this system is the cable
-by which the tools are suspended and connected to the
-walking beam. There is no doubt that this system of
-drilling, which has been so universally used in the
-oil-fields, gives most satisfactory results. When first
-introduced in Pennsylvania, the cable system of drilling
-was particularly simple, and did remarkably good work,
-for the reason that the strata usually encountered was
-of such a nature that it did not cave, and, as a result,
-the well-pipe was only lowered when the full depth of
-that string had been drilled. The drilling bits were
-seldom more than 4 inches thick. In order to give a
-rotary motion to the bit, the continuous twisting of the
-cable to and fro was necessary; but when in other fields,
-where deeper strata had to be explored, the cable
-system was introduced, the semi-sandy nature of the
-strata called for wells of larger diameter with correspondingly
-larger drilling bits. As a consequence of
-the additional weight of the drilling bit, it was found
-that the swing of the tools was sufficient to give them a
-rotating movement for the drilling of a circular hole.
-In regions where caving-in of the walls of the wells was
-liable to occur, the string of pipe had to closely follow
-the tools, which, with the old Pennsylvanian type of rig,
-meant frequent winding of the cable from the bull
-wheel, so as to allow of the well pipes being handled.</p>
-
-<p>In order to prevent the waste of time which these
-operations occasioned, the calf wheel was added, by
-means of which the pipe could be lowered into the hole
-<span class="pagenum" id="Page_44">44</span>
-without the removal of the drilling cable. This cable
-almost invariably was of the Manila character, and in
-many instances this rope is retained to-day, though wire
-ropes have been introduced frequently.</p>
-
-<p>The Canadian pole system, which is largely in use in
-oil-field operations, is, like the first-mentioned method
-of drilling, of the percussion type, the chief essential
-difference being that, instead of a cable connecting the
-tools to the surface, poles are used. In former times,
-these poles were of ash-wood, but with the extended
-use of the system, iron rods took their place. The
-introduction of these iron rods was a distinct advantage,
-for they could be welded to whatever lengths are
-required, whereas the wooden poles, which were seldom
-more than 20 feet long, had to be spliced for practical
-work. The rig used with the Canadian system is not
-so powerful as that for the Pennsylvanian method, but
-the one great advantage of the Canadian system is
-that, for the drilling of shallow oil-wells, it could be
-operated by men of less experience. The success which
-has attended the operation of the pole system lies in
-the fact that although drilling by its means is very
-slow&mdash;for seldom is 250 feet per month exceeded&mdash;it is
-one of the best methods of drilling through complicated
-strata, and, in the hands of conscientious men, does
-highly satisfactory work. It might be of interest to
-very briefly refer to the operations of the system when
-a well is being drilled. The rig (that is, the superstructure
-above ground) is quite a simple framing,
-70 or more feet high, with a base of about 20 feet.
-The power is usually derived from a steam engine, with
-the usual means for operating the gear from the derrick;
-fuel found locally, natural gas, or other form of heating
-agent used. One shaft and two spools running in
-bearings transmit the various motions desired, the drive
-<span class="pagenum" id="Page_45">45</span>
-being taken up by a pulley attached to the main shaft.
-On this shaft are keyed two band pulleys, which communicate
-by belting with two spools running immediately
-overhead in the upper part of the framework.
-Fastened to one extremity of the main shaft is a disc
-crank, which, through the medium of a connecting rod,
-transmits an oscillating movement to an overhead
-pivoted walking beam. In all systems of percussion
-drilling, the drilling bit is raised and then dropped a
-distance of several feet, the result being that the strata
-to be drilled are steadily pounded away. As the ground
-is pulverized by the percussion tools, the debris has to
-be cleared away so as to enable the drill to fall freely
-and to deliver clean blows to the unbroken strata, and
-this work is performed by appliances known as bailers
-and sand pumps. There is no need for me to go into
-the numerous technical details regarding this or any
-other system of drilling, for my only desire is to give a
-general impression as to the usual methods adopted for
-the winning of petroleum.</p>
-
-<p>I will therefore pass on to deal briefly with the
-Russian free-fall system so much in vogue in the Russian
-fields. Incidentally, I may here say that when drilling
-for oil in Russia, one has to recollect several features
-which are not common to the development of other
-oil-fields. Bearing in mind the great depth to which
-wells have to be sunk to reach the prolific oil horizons
-in the majority of the fields in Russia, which necessitates
-starting the well with a very large diameter&mdash;frequently
-30 inches&mdash;it will be easily appreciated that the loss of
-a hole in the course of drilling is a very expensive affair.
-The Russian free-fall system of boring necessitates
-patient and hard manual labour. It is, as its name
-implies, of the percussion type, and is, in fact, a modified
-pole-tool system which well suits the local conditions.
-<span class="pagenum" id="Page_46">46</span>
-The clumsy drilling tools have a practically free drop,
-being picked up when the walking beam is at its lowest
-point, and released at the top of the stroke. When
-released, the tools naturally force their way downwards
-in the strata, and are released only with difficulty,
-although in a measure this difficulty is minimized on
-account of the fact that the under-reaming (slightly
-enlarging the diameter of the hole) is done simultaneously
-with the drilling.</p>
-
-<p>After a Russian well has been started by means of
-a slip-hook suspended from a haulage rope, and a depth
-of some 30 feet obtained, the free-fall is added to the
-string of tools. This free-fall is composed of two
-separate parts&mdash;the rod and the body&mdash;and these are
-held together by means of a wedge working in vertical
-slots cut in the sides of the body. In operating the
-free-fall, the handles, fixed to the temper screw, are
-held by the driller. On the downward stroke these are
-pushed forward from right to left, but as soon as the
-downward stroke is completed, they are quickly pulled
-backwards. The steel wedge enters the recess and the
-tools are carried to the top of the stroke, where, by a
-quick forward jerk, the wedge is thrown clear of the
-recess, and the tools drop freely, the momentum of the
-string of tools driving the drilling bit deeper into the
-hole. After several feet of the hole are drilled, the
-tools have to be withdrawn in order to allow the pulverized
-mass of debris to be cleared away, while, owing
-to the caving nature of the strata, it is necessary to
-case the well as drilling proceeds.</p>
-
-<p>As I have said, the system is very cumbersome, but,
-in the hands of experienced men, it does its work well,
-if but slowly. There are many cases on record where,
-when the well has assumed a considerable depth, it
-has been completely spoiled by the carelessness of the
-<span class="pagenum" id="Page_47">47</span>
-<span class="pagenum" id="Page_48">48</span>
-operators, but, more often than not, this has been
-deliberate, for the Caucasian oil-field worker has many
-grievances, admittedly more or less imaginary.</p>
-
-<div id="OILWELL_HEAVY_ROTARY_OUTFIT" class="figcenter">
-<img src="images/i_p047.jpg" alt="" />
-<p class="caption">ILLUSTRATION OF THE “OILWELL” HEAVY ROTARY OUTFIT,
-SHOWING RING AND WEDGE (ON LEFT-HAND SIDE OF
-FOREGROUND) TO GRIP THE CASING</p>
-</div>
-
-<p>During recent years, the rotary method of drilling
-has been successfully adopted, and it is in regard to
-this revolutionary method of speedy drilling that I
-will now touch upon. The rotary method of drilling
-made its d&eacute;but in Texas some fourteen years ago, and
-since then it is not any exaggeration to say that nearly
-20,000 wells for oil have been drilled with the system,
-which has found popularity in all the oil-fields of the
-world. Its main operation is simplicity itself: a rigid
-stem of heavy pipe rotates a fish-tail drilling bit at the
-bottom of the hole, cutting and stirring up the formation
-to be drilled. It cuts its way through the underground
-formations, much in the same way as a screw when
-rotated forces its way through wood. It is the essence
-of speed in drilling, for, unlike the necessary principles
-to be adopted in the percussion methods of drilling, the
-rotary drill does not have to be lifted from the hole for
-the purposes of clearing. The pulverized strata are
-continuously washed from the hole by a stream of
-water reaching the bottom of the drill. Very frequently,
-a pressure-fed mud is used, and this serves a double
-purpose, for in its return to the surface it tends to
-plaster the walls of the well. The mud emerges in
-streams of high velocity from the two apertures in the
-drilling bit (for in its downward course it is carried
-through the drilling pipe or stem), but naturally loses
-this velocity considerably in its return to the surface.
-It is, however, very easy to detect the kind of stratum
-being drilled through from the returned cuttings, these
-reaching the surface but a few minutes after the drilling
-bit has entered the formation.</p>
-
-<p>From time to time various grievances have been
-<span class="pagenum" id="Page_49">49</span>
-ventilated against this improved system of boring for
-petroleum, but to-day its adoption is world-wide, and
-by its use wells which, with the old-fashioned method
-of drilling would take many months if not two or three
-years, are now got down to the producing horizons in
-but a few weeks. It is, in fact, solely due to the ever-increasing
-use of the rotary drill that the universally
-increased demands for petroleum products have been
-met by an ever-increasing production of the crude oil.</p>
-
-<p>Leaving the question of drilling methods, I cannot
-fail to mention the interesting fact that in oil-field
-operations progress is now being recorded in another
-direction, and that is by the increasing utilization of
-electrical power in the place of steam. At the time of
-writing, it is safe to say that fully 60 per cent. of the
-power requirements on the oil-fields is provided for by
-steam plants, with their attendant waste. Oil and gas
-engines, with their greater efficiency, may claim to be
-operated to an extent of 35 per cent., while not more
-than 5 per cent. of the requirements are satisfied by
-the use of electric motors. There is no doubt that
-prejudice has had a deal to do with the very minimized
-use of electrical power on the oil-fields in the past,
-but this is being gradually swept aside, and, in the next
-few years, I have no doubt that both electrical manufacturers
-and the petroleum industry generally will
-materially benefit from the use of this cheap and very
-economical form of power. In the past, many disastrous
-oil-field conflagrations have been due solely to the use
-of open-fired engines in close proximity to the wells,
-but with the use of electrical energy this fire danger
-will be rapidly removed.</p>
-
-<p>Before closing this chapter, I would say a word or
-two with respect to the bringing into the producing
-stage of the oil-wells when once they have been drilled.
-<span class="pagenum" id="Page_50">50</span>
-In the early history of oil-held developments, it was not
-infrequent to find the crude oil ejected from the well by
-natural pressure, but to-day it is the exception to find
-those oil-fountains which have made the early history
-of the Russian oil-fields so famous. In many of the
-fields, explosives are used to promote the flow of oil,
-and when the well “comes in” to production, the
-ordinary methods of bailing or pumping are resorted
-to. Compressed air is also used for bringing about and
-sustaining production. The quantity of air and the
-periods of admission naturally vary with the diameters
-of the wells, the amount of gas present, the level of the
-liquid, etc., which latter also determines the pressure
-of air necessary.</p>
-
-<p>The natural exhaustion of oil-wells can obviously
-have no remedy, but areas conveying that impression
-can often be revived by methods, the study of which
-is being carefully continued. As I write, I find that
-the officials of the United States Bureau of Mines, who
-have been studying this question of exhaustion, have
-arrived at the conclusion that from 20 to as much as
-90 per cent. of the crude oil remains in the strata tapped
-by the well, even when it is abandoned as no longer
-capable of profitable production. This conclusion opens
-up what may prove some day to be a most interesting
-chapter in oil-field history.
-<span class="pagenum" id="Page_51">51</span></p>
-
-<h2 id="CHAPTER_IV">CHAPTER IV<br />
-
-<span class="medium">THE REFINING OF PETROLEUM</span></h2>
-
-<p>Inasmuch as the aim of this little volume is to interest
-other than those who are directly associated with the
-petroleum industry, I shall endeavour in this chapter
-to refer to the refining of petroleum in a manner which
-shall be readily understood by the reader, and shall,
-wherever possible, refrain from entering into those highly
-technical matters which do not lend themselves to
-popular expression.</p>
-
-<p>The refining of crude oil as it is produced from the
-earth, consists in the classification of its various hydrocarbons
-by means of fractional distillation, into the
-various products which so largely enter into our commercial
-and domestic life of to-day. The refined
-products, in the order in which they are received by
-distillation, are: motor spirit, illuminating oils, solar
-oils, lubricating oils, fuel oils, residuum, etc.&mdash;the first
-mentioned being the lightest and the last the heaviest
-in specific gravity.</p>
-
-<p>Almost simultaneously with the discovery of petroleum,
-there sprung up the first attempts to refine Nature’s
-product, and though these early experiments were of a
-most primitive character, they doubtless served their
-purpose admirably. In this respect, probably the most
-primitive oil refinery in the world was built near the
-Tigris, in Mesopotamia.</p>
-
-<p>Crude petroleum varies in its character, for while
-certain crudes are pale in colour and almost transparent,
-others are almost black and viscid. Some, indeed,
-would appear to have undergone a course of refining
-<span class="pagenum" id="Page_52">52</span>
-by Nature itself, for in some fields the crude oil will
-freely burn in lamps without any refining treatment: in
-the vast majority of cases, however, the crude oil, as
-withdrawn from the producing wells, represents a liquid
-somewhat like molten tar.</p>
-
-<p>The chemical composition of petroleum consists
-essentially of carbon and hydrogen, together with
-oxygen and varying amounts of nitrogen and sulphur.
-The crude from Pennsylvania&mdash;and this is the finest
-crude in the United States&mdash;consists chiefly of a large
-number of hydrocarbons of the paraffin series, whilst
-in the Russian petroleums, the predominant constituents
-are naphthenes or polymethylenes. Then the
-crude petroleum of the Dutch Indies and Burmah is of
-a different character from that found elsewhere, for in it
-aromatic hydrocarbons are largely present. The various
-series of hydrocarbons found in crude oils&mdash;the paraffins
-and naphthenes&mdash;readily lend themselves to conversion
-into other compounds of carbon and hydrogen by
-dissociation, and this conversion produces compounds
-of higher volatility, such as motor spirits, etc. When
-the compounds of hydrogen and carbon are submitted
-to distillation, certain chemical changes occur, as the
-result of which other series of hydrocarbons are formed,
-and, though it is not my intention here to dive into
-this comparatively new realm of chemical investigation,
-it is interesting to mention that, by carrying the treatment
-of the compounds still further, it is possible to
-obtain aromatic hydrocarbons, including trinitrotoluene
-(generally known as the explosive T.N.T.), in addition
-to various dye products.</p>
-
-<p>In the earlier methods of refining, the stills usually
-consisted of a vertical cylinder in which the charge of
-crude oil was distilled almost to dryness, but this
-method was completely revolutionized many years ago,
-<span class="pagenum" id="Page_53">53</span>
-<span class="pagenum" id="Page_54">54</span>
-especially in the United States, by the introduction
-and immediate success of a principle known as the
-“cracking” process, and by the separation of the
-distillation into two portions, one for the removal of
-the more volatile constituents in the crude oil (such as
-motor spirit) and the other for the treatment of the
-heavier products.</p>
-
-<div class="figcenter">
-<img src="images/i_p053.jpg" alt="" />
-<p class="caption">DIAGRAM SHOWING THE PRODUCTS OF PETROLEUM BY FRACTIONAL DISTILLATION<br />
-<a href="images/i_p053-large.jpg">Click here for larger image</a></p>
-</div>
-
-<p>I will first deal with the method of refining known as
-the “straight” process, or the process which does not
-involve “cracking.” At one time, the refiner had to
-consider the saleability of his refined products before
-he commenced to refine them, but to-day, with the
-perfect system which prevails for the handling of huge
-quantities of refined products, and the transporting of
-them to the most distant markets, the one desire of the
-refiner is, naturally, to secure from his treatment of the
-crude oil, as many refined products as possible, always
-keeping an eye on the production of the largest quantities
-of the higher priced products than upon those
-which are of low value.</p>
-
-<p>The process of refining to be applied to any particular
-oil naturally depends upon its composition as shown by
-analysis. It may be that the crude oil to be treated,
-apart from containing a small percentage of distillates
-with a low boiling point (motor spirit), is principally
-made up of residues of little value except as fuel, or,
-on the other hand, it may be that the crude oil is of
-high quality and contains all possible products. In the
-former case, the process of distillation is brief, and the
-plant inexpensive, as compared with the lengthy process
-of full refining necessitated in the latter case.</p>
-
-<p>The refining operations consist of three distinct
-branches: (1) the distillation, (2) the extracting of
-paraffin and refining, and (3) the chemical treatment.
-When only a small percentage of the low boiling fractions
-<span class="pagenum" id="Page_55">55</span>
-<span class="pagenum" id="Page_56">56</span>
-has to be removed from the crude oil, the process is
-known as “topping,” and a convenient form of apparatus
-for the purpose is the tower still. This consists of a
-vertical cylinder fitted with perforated plates resting at
-intervals on pipes through which superheated steam
-travels. The pipes serve the double purpose of conveying
-the steam to its inlet and of heating the oil to be
-distilled. The steam, on entering the cylinder, ascends,
-meeting the crude oil, as it descends from plate to plate
-in a regulated stream, and carrying with it to the outlet
-the light fractions which the operation is intended to
-remove.</p>
-
-<div class="figcenter">
-<img src="images/i_p055.jpg" alt="" />
-<p class="caption">DIAGRAM SHOWING THE PRODUCTS OF PETROLEUM OBTAINED BY THE
-“CRACKING” PROCESS<br />
-<a href="images/i_p055-large.jpg">Click here for larger image</a></p>
-</div>
-
-<p>A few years ago, a Californian chemist invented an
-improvement of the principles of maximum heating
-and evaporating surfaces. His name was Trumble, and
-the process is known as the Trumble process. The
-crude oil is heated to the desired temperature in pipes
-or retorts set in a primary furnace, the hot gases of
-combustion from which are utilized to heat the distillation
-chamber proper. Entering the vertical cylinder
-at the top, the oil is spread over and through perforated
-plates falling on a cone-shaped plate to divert the
-continuous stream of oil to the sides of the still, down
-which it flows in a thin film. Other conical plates,
-arranged at intervals underneath, maintain the flow in
-the desired channel until it reaches the outlet at the
-bottom. When 60 or 70 per cent. (comprising the motor
-spirit series, the kerosenes, and perhaps the intermediate
-fractions) are to be removed, it is common practice to
-distil the crude oil in a series of stills, cylindrical in
-shape, connected continuously. The best-known system
-is that patented 35 years ago by Mr. Henderson, of the
-Broxburn Oil Company, Ltd., for the distillation of
-shale oil, and since adopted by many refiners of petroleum.
-In this system, the crude oil flows from a
-<span class="pagenum" id="Page_57">57</span>
-charging tank by gravity through a pre-heater, heated
-by the passage, from the second or other still, of distillates
-of suitable temperature, and thence into the
-first still. Here it is raised to distillation temperature,
-and the specific gravity of the distillate therefrom fixed.
-The feed of the crude oil is constant, the residue formed
-in the still passing through a connection at the bottom
-into the second still in the series, at the top, and led
-from back to front so that the inlet and outlet shall be
-as far apart as possible. It is here raised to a higher
-temperature, yielding a distillate of higher specific
-gravity, the residue passing on to the next still, and so on
-through the series of stills until it reaches the point
-where all the motor spirit (or benzine, as it is
-called), kerosene, and the intermediate distillates are
-removed.</p>
-
-<p>The distillates obtained from the refining of the crude
-are usually purified by treatment successively with
-sulphuric acid and solution of caustic soda, this process
-of chemical treatment being necessary before the
-products are fit for the market.</p>
-
-<p>The “cracking” process of distillation briefly consists
-in distilling the oils at a temperature higher than the
-normal boiling points of the constituents it is desired to
-decompose, and, in practice, the result is that the
-heavier oils are turned into lighter hydrocarbons of
-lower boiling points: thus the yield of the more valuable
-of the refined products is materially increased. The
-“cracking” process, which very largely obtains to-day,
-was quite accidentally discovered by a small refiner
-in America many years ago. The man in charge of
-the still left it with the intention of returning very
-shortly. He was, however, absent for several hours,
-and to his dismay found that; as the result of his neglect
-in attending to the still, a very light coloured distillate
-<span class="pagenum" id="Page_58">58</span>
-of much lower density than that which it was usual to
-obtain, was issuing from the condenser.</p>
-
-<p>Upon investigation, it was found that a portion of
-the distillate had condensed upon the upper part of
-the still, which was cooler, and had dropped back into
-the still, where the temperature was sufficient to produce
-products of a lower boiling point&mdash;certainly a distinct
-improvement. As may be imagined, this “cracking”
-process does not commence until the lighter products of
-distillation have been removed, and is now so popular
-because by its use a greater yield can be obtained of
-those more valuable products for which there is an
-ever-increasing demand.</p>
-
-<p>It is unnecessary here to enter into those various
-improvements which have been introduced from time
-to time, all of which have as their aim the production of
-larger quantities of refined oils, and it would likewise be
-invidious to enumerate even the more popular scientists
-to whose energies much of the resulting progress has
-been due, for the simple reason that it has ever been
-the aim of the petroleum chemist to turn his abilities
-in the direction indicated.</p>
-
-<p>As may be imagined, the industry of petroleum refining
-has had to adapt itself to the altered conditions of to-day.
-For instance, prior to the advent of the internal combustion
-engine, which now is responsible for such a wide
-application of motor spirit, the demand for this, the
-lightest product of petroleum distillation, was non-existent.
-Consequently, when such spirit was produced,
-there was no market for it, and its production represented
-sheer loss to the refiners. Both in the Far East
-and in Russia, we have examples of the enormous loss
-which accrued to the refiners by reason of there being
-no market for this highly inflammable product. In the
-Far Eastern fields, in particular, this loss was very
-<span class="pagenum" id="Page_59">59</span>
-heavy, for in the earlier days of its operations, the
-“Shell” Company had to remove thousands of tons of
-this now valuable motor spirit from its refineries and
-burn it in the open fields. The successful introduction
-of the internal combustion engine, however, completely
-changed the aspect of petroleum refining, and the desire
-became general, not to see how little motor spirit could
-be produced, but to perfect methods by which the yield
-of the benzene series of hydrocarbons should be as large
-as possible. Even to-day progress is still being recorded
-in this direction, and each American refiner is vying
-with his neighbour as to how far that output of gasoline,
-as it is there called, can be increased.</p>
-
-<p>Many and varied are the means which have been
-resorted to for this purpose, but most of them have
-reference to improvements in the processes for refining
-the crude oil. One, however, is worthy of being mentioned
-in this little treatise, inasmuch as it deals with
-quite another aspect of the problem of increased motor
-spirit supply.</p>
-
-<p>As I have mentioned in another chapter, enormous
-quantities of natural gas exude from the oil-wells, and
-this in the past has been for the most part allowed to
-go to waste in the air, causing an ever-present danger
-to oil-field operations on account of its liability to
-ignite. Being heavier than the air itself, for it is
-impregnated with oil gases, it remains for long periods
-in the lower air strata, and, consequently, not infrequently,
-has been the direct cause of great oil-field fires.
-This gas&mdash;casing-head gas, as it is termed&mdash;comes from
-the oil-wells between the casing and the tubing, and, in
-the case of numerous wells, the flow is remarkable, some
-wells giving forth 300,000 cubic feet of gas every 24
-hours, and the only useful purpose that this vapour has
-served until recent years has been to light several towns
-<span class="pagenum" id="Page_60">60</span>
-situated comparatively near to the oil-producing fields.
-The great volume of the gas, however, has been allowed
-to go to waste.</p>
-
-<p>But experiments have proved that the gas is capable
-of condensation into motor spirit, and the general yield
-of such spirit may be taken as fully 2 gallons per 1,000
-cubic feet of natural gas treated. What wonderful
-possibilities lie in the direction of the conversion of
-this vapour into motor spirit! The oil-producers in
-the United States have not been slow to appreciate this,
-and to-day there are hundreds of plants in the United
-States which have been erected solely to condense these
-oil-well gas vapours. Some of these plants are dealing
-with as much as 3,000,000 cubic feet of gas a day.
-The most recent official returns available from the
-United States show that the production of gasoline
-(motor spirit) from this process of oil gas condensation
-is, approximately, 150,000,000 gallons per annum, and
-even this substantial figure is being steadily increased.</p>
-
-<p>There is also another phase of the oil-refining industry
-which, during recent years, has materially altered. I
-refer to the production of solar oil during distillation.
-It is an apt saying that we can scarcely look to any
-section of our commercial or domestic life without being
-confronted with the fact that oil products play some
-part therein: there are few, however, who, without
-reflection, would agree that when they light their gas
-they are dependent upon petroleum for much of the
-light the gas gives. It is, nevertheless, a fact, as I will
-proceed to show.</p>
-
-<p>Many years ago, the oil refiners in Baku were confronted
-with a problem which appeared for some time
-to be insurmountable. After the distillation of their
-kerosene, or illuminating oil, and before they could
-commence to take off the lubricating oil fractions,
-<span class="pagenum" id="Page_61">61</span>
-there was an intermediary product which, while being
-of no use for lamp oil, did not possess the necessary
-constituents of viscosity to make it acceptable as a
-lubricant. It was a fairly decent volume of something
-for which there was no market at the time.</p>
-
-<p>Experiments were made, and with these the name of
-Dr. Paul Dvorkovitz will ever be associated, and it was
-found that by the passage of a current of gas over the
-surface of this intermediate product, the gas caught up
-as it were a richness which materially increased the
-lighting power of the gas. To cut a long, but highly
-interesting, story short, this solar or gas oil was subsequently
-introduced by Dr. Dvorkovitz to England for
-gas enrichment purposes, and the extent of its employment
-to-day may be judged from the fact that the
-United Kingdom regularly imports between 60,000,000
-and 70,000,000 gallons per annum for the enrichment
-of the coal gas which finds useful employment in practically
-every home throughout the land. As is known,
-the gas companies have to produce gas of a certain
-lighting quality, and it is in the upholding of the lighting
-strength of the gas that solar oil to-day plays so important
-a part. At first, the oil came almost exclusively
-from Russia, but now the competition from the United
-States has secured for our American friends the vast
-bulk of the trade, which, as I have shown, has reached
-enormous proportions.</p>
-
-<p>Solar oil is also largely utilized for the production of
-refined perfumery oils, which are quite colourless and
-inodorous, while the finest quality is used in pharmacy
-and known as <i>paraffinum liquidum</i>, and is in much
-demand, but in this connection it is the Russian
-petroleums that have gained distinction. It was held
-for many years that such tasteless and colourless oils
-could not be produced from the United States
-<span class="pagenum" id="Page_62">62</span>
-petroleums, but from the commencement of the European
-War, and the consequent closure of Russia’s export
-port, whereby all overseas trade in Russian petroleums
-was held up, much progress was made in the
-manufacture of tasteless medicinal petroleums in the
-United States, such articles having now become popular
-throughout the world.</p>
-
-<p>One of the most important discoveries made during
-recent years has been the finding of large quantities of
-toluol in petroleum. This article is necessary for the
-manufacture of high explosives. In Borneo heavy
-petroleum, toluol exists to a very large extent, and it
-was its discovery and consequent use by the allies&mdash;thanks
-to the offer made to the Governments by Sir
-Marcus Samuel, Bart.&mdash;that almost unlimited quantities
-of high explosives were manufactured.</p>
-
-<p>Vaseline is another useful commodity which is derived
-from the refining of crude petroleum, and this article
-is turned out of the American refineries as well as
-those of Russia and Galicia, in large quantities, but,
-beyond mentioning this fact, no useful purpose would here
-be served by relating the various processes employed.</p>
-
-<p>With reference to the methods generally adopted in
-the refining of the products from the distillation of the
-Scottish oil shales, these are briefly dealt with in the
-chapter devoted to the Scottish oil industry.</p>
-
-<p>It is safe to say that the past two or three decades
-have witnessed marked progress in perfecting the
-methods by which crude petroleums are refined into
-the innumerable common commodities of commerce,
-and it is doubtful whether in any branch of chemical
-research there has been such concerted energy shown
-as in regard to the refining of mineral oils. Signs,
-however, are not wanting to show that the zenith of
-this progress has by no means been reached.
-<span class="pagenum" id="Page_63">63</span></p>
-
-<h2 id="CHAPTER_V">CHAPTER V<br />
-
-<span class="medium">TRANSPORT BY LAND AND SEA</span></h2>
-
-<p>The remarkably perfect methods by which petroleum
-and its products are transported by land and sea
-before they reach the consumer may not at first sight
-appear to be anything but commonplace, but a moment’s
-reflection will be sufficient to suggest that a vast and
-complete organization must be required in order that
-petroleum may be brought from practically the ends of
-the earth to the consumer in the most remote village
-in the British Isles. But it is the demands of necessity
-that have been responsible for the building up of this
-vast organization of transportation which represents, in
-the United States alone, the investment of many millions
-of pounds sterling.</p>
-
-<p>Taking first the methods of oil transportation by land,
-in no other oil-producing country do we find such an
-elaborate system for dealing with enormous quantities
-of petroleum as in America, for it is safe to say that at
-least 500,000 barrels of crude oil have to be dealt with
-daily at the present time.</p>
-
-<p>Going back to the time when petroleum first became
-a commercial commodity&mdash;when the first wells in Oil
-Creek commenced to open up a period of new prosperity
-for the United States&mdash;these wells were situated so close
-to the water that their product could easily be loaded
-into canoes and barges, and floated down the Alleghany
-river. In the dry season, the flow was insufficient to
-float the craft, and then some hundreds of the boats,
-carrying each from 50 to 1,000 barrels, would be
-assembled in a mill-pond near the wells, and the water
-<span class="pagenum" id="Page_64">64</span>
-impounded while the loading was in progress. Then the
-gates would be opened, and the fleet, carried on the
-flood of rushing water, would be hurried down the
-river in charge of pilots. The fleet of creek and river
-boats engaged in this novel work at one time numbered
-2,000.</p>
-
-<p>But, as the production of oil increased, and new
-districts were successfully tapped, it became obvious
-that some different method of handling the crude oil
-would have to be adopted. The inland wells could not
-get rid of their production, and it is not surprising to
-find that at one time&mdash;about 1862&mdash;crude oil prices at
-the well fell to 10 cents per barrel. A system of horse
-haulage was initiated, and in time thousands of animals
-were required to haul the oil from the inland wells to
-shipping points. The waggon train of the oil country
-in the pre-pipe-line days at its maximum consisted of
-6,000 two-horse teams and waggons, and a traveller in
-the oil region in those early sixties could not lose sight
-of an endless train of waggons each laden with from
-five to seven barrels. The roads were almost bottomless,
-and the teamsters tore down fences and drove
-where they liked. These men, always of the roving,
-picturesque type, would earn anything from 10 to 25
-dollars per day, spending the most part in revelry on
-the Saturday night.</p>
-
-<p>It was at this time that a Bill was introduced into
-the States legislature authorizing the construction of a
-pipe-line from Oil Creek to a spot known as Kittanning,
-but the opposition of 4,000 teamsters defeated the Bill
-and the first effort to organize an oil pipe-line company.
-The modest beginning of the present-day system of oil
-transportation on land by pipe-line was due to the
-enterprise of a Jerseyman named Hutchings, who laid
-a 2-inch pipe from some wells to the Humbolt refinery.
-<span class="pagenum" id="Page_65">65</span>
-The teamsters, foreseeing the possibilities of this innovation,
-proceeded to tear up the line, and warned the
-oil-producers not to adopt these new methods of oil
-transportation.</p>
-
-<p>But Hutchings was undismayed, for he laid a second
-line, this being composed of cast-iron joints caulked
-with lead. Although this was impracticable, the
-teamsters again wrought vengeance on the proposition,
-and completely destroyed it. Hutchings still persisted
-in his efforts, but died&mdash;disappointed and penniless&mdash;a
-genius living a little before his time.</p>
-
-<div id="PRIMITIVE_METHOD_OF_TRANSPORT" class="figcenter">
-<img src="images/i_p065.jpg" alt="" />
-<p class="caption">A PRIMITIVE METHOD OF TRANSPORTING OIL</p>
-</div>
-
-<p>At the end of 1865, a Henry Harley commenced the
-laying of a pipe-line to the terminus of the Oil Creek
-railroad, but teamsters cut the pipes, burned the
-collecting tanks, and retarded the work in every possible
-<span class="pagenum" id="Page_66">66</span>
-way. Armed guards eventually came on the scene, the
-mob was quelled and dispersed, and the line completed.
-It was of 2-inch diameter, and laid to handle 800 barrels
-of oil daily: this was the first successful and profitable
-pipe-line on record for the handling of oil.</p>
-
-<p>From this time, the number of pipe-lines have multiplied,
-until to-day there are thousands of them scattered
-throughout every oil-producing field of America. The
-first long main transportation line for oil was laid in
-1880 from Butler County to Cleveland, a distance of
-over 100 miles, and immediately after its completion,
-trunk lines were commenced from the Bradford oil
-region to the Atlantic seaboard. The popularity of
-this new method of oil transportation may be judged
-from the fact that within three years from the completion
-of these first propositions, the National Transit
-Company possessed over 3,000 miles of oil pipe-lines,
-and had iron tank storage for 35,000,000 barrels of
-crude oil.</p>
-
-<p>Then a few master minds came to the front, and
-loyally supported by Mr. John D. Rockefeller, of
-Standard Oil fame, they undertook the herculean
-task of practically girdling the States with a system of
-oil pipe-lines that has no parallel anywhere. They
-eliminated the jaded horses, oil-boats, wooden tankage,
-and slow freights, tedious methods, and questionable
-practices of handling petroleum, and substituted therefor
-the stem pump, the iron conduit, the steel tank storage,
-and systematic and businesslike methods which soon
-commanded the confidence and respect of all oil-producers.
-They extended their pipe-lines to practically
-every producing well and established a transportation
-system which serves the industry to-day as
-no other on earth is served. The advantages of the
-modern pipe-line to the oil-producer are obvious.
-<span class="pagenum" id="Page_67">67</span>
-A pipe-line connection to a producer’s tank ensures
-prompt service and a cash market for his product at
-all times. The small line connected with his tank
-conveys the crude oil therefrom, either by gravity or
-by means of a pump, into a receiving tank of the
-gathering or field lines of the pipe-line system, from
-which it is pumped into the main trunk pipe-lines to
-the refineries.</p>
-
-<div id="OIL_PIPE_LINE_CONNECTIONS" class="figcenter">
-<img src="images/i_p067.jpg" alt="" />
-<p class="caption">OIL PIPE-LINE CONNECTIONS IN THE AMERICAN FIELDS</p>
-</div>
-
-<p>The system by which the producer can have payment
-for his oil at any time, for he is credited with its value
-when it once enters the pipe-line, is the perfection of
-simplicity, accuracy, and efficiency. The pipe-line of
-which the gathering or field lines are composed varies
-in diameter from 2 to 8 inches, the joints of which are
-screw threaded. The main trunk lines are from 6 to
-<span class="pagenum" id="Page_68">68</span>
-10 inches in diameter, and pumping stations, supplied
-with powerful plant driven by steam or internal combustion
-engines of the Diesel type, are located at suitable
-points of the line. According to the nature of the crude
-oils to be passed through the pipe-line must the erection
-of pumping houses be governed: for instance, in handling
-the heavy Californian or Mexican crudes, the pumping
-stations have to be much nearer each other than when
-a lighter crude oil is transported. Some of the heavier
-oils have, in fact, to be heated before they enter the
-pipes at all.</p>
-
-<p>As already mentioned, the total oil transported to-day
-by the American pipe-line system exceeds half a million
-barrels daily. The lines themselves&mdash;all laid, of course,
-below ground&mdash;are so unobtrusive and do their work
-so quietly and unseen, that they attract no attention,
-and yet they are vastly important to not only the
-business of the States, but to those myriads of consumers
-abroad.</p>
-
-<p>It is, in fact, impossible to over-estimate the importance
-of this up-to-date system of oil transportation in
-the United States as it exists to-day. To show the
-impossibility of conducting the present-day American
-petroleum industry without the use of pipe-lines, let
-me give a few facts. The large oil-tank cars, which
-are not unusual sights on our railways, hold, at the
-maximum, about 25 tons of oil. Excluding California
-altogether from these illustrations, the half-a-million
-barrels of oil which are transported daily in the States
-by pipe-lines would fill over 2,500 tank cars. Taking
-25 cars to make up a freight train, it would require
-fully 100 trains daily to transport the oil that now goes
-by pipe-line, and inasmuch as it is estimated that the
-oil on the average is transported overland (or, rather,
-under-land) 1,000 miles, it would require, approximately,
-<span class="pagenum" id="Page_69">69</span>
-200,000 railroad tank cars to do the daily work in
-connection with the transport of oil in the United States
-east of the Rocky Mountains, for the average movement
-of tank cars is 30 miles daily, and all empty cars must
-be returned. No less than 8,000 railroad engines
-would be required to do this work, which, on the face
-of it, is a railway impossibility.</p>
-
-<p>I am afraid I have devoted more space to the question
-of pipe-line transport in the States than the confines of
-this little work warrants, but the subject is one of
-great interest to all who would know the magnitude of
-the organization which is comprised in the limits of
-the petroleum industry.</p>
-
-<p>The United States, however, is but one of the large
-oil-producing countries where the pipe-line system for
-the land transport of oil has become the backbone of
-transport. In Russia, for instance, the fields of production
-are situated hundreds of miles from the exporting
-ports, and, following upon the principles which obtain
-in the United States, the pipe-line system had, perforce,
-to be adopted. In this respect, however, Russia
-has still a great deal to learn from our Western friends,
-and the conservative policy which permeated the Russian
-Empire as a whole has precluded the making of much
-headway.</p>
-
-<p>The Russian oil-fields&mdash;those of Baku and Grosny&mdash;are
-situated at great distance from the coast, and the
-necessity of connecting both fields with the export port
-of Batoum, on the Black Sea, has frequently been put
-forward as a project offering the one solution of the
-difficulties attending the retention of a large export oil
-trade. The Grosny pipe-line is still a scheme for future
-solution, but that affecting Baku has been solved by
-the laying of a pipe-line from Baku to Batoum. This
-line, which is approximately 650 miles long, runs
-<span class="pagenum" id="Page_70">70</span>
-direct between the two oil centres and, assuming it
-operates 24 hours in the day, has a capacity of transporting
-over 3,000 tons of oil daily. Inasmuch as the
-Russian oil refineries are at Baku, the line is used solely
-for the transportation of the refined products. The
-line itself is laid alongside the railway line of the Transcaucasian
-Railway, at a depth of 4 feet, but many strange
-stories are related as to the tapping of it at various
-points, and a lucrative trade being done in the oil so
-caught.</p>
-
-<p>When normal conditions return to Russia and the
-petroleum industry rights itself, Russian petroleum
-products will again come on the international markets,
-and in this respect the Grozny oil will be able to secure
-an outlet via Novorossisk.</p>
-
-<p>Roumania can also boast of a main trunk pipe-line
-for refined products from the inland refineries direct to
-the port of Constantza. This important project, which
-has been carried out practically by the Government
-itself, was just about ready for service when the
-European War broke out: it has, therefore, had little
-time in which to display its practical use to the
-petroleum industry at large. When one recollects
-that Roumania’s future, so far as the petroleum industry
-is concerned, lies in the direction of the building up of
-its already established export trade in petroleum
-products, the necessity for such a trunk pipe-line to
-the seaboard has been obvious for many years. Unlike
-the case of the United States, there are no interesting
-events to recall which delayed the advent of this new
-form of land oil transportation. There is only one oil
-pipe-line of any considerable length in the United
-Kingdom and this runs across Scotland from Old Kilpatrick
-(on the west) to Grangemouth (on the east coast),
-its terminal being in close proximity to the naval base at
-<span class="pagenum" id="Page_71">71</span>
-Rosyth. The line, which is 36 miles long, was laid to
-circumvent the activity of enemy submarines, but was
-only completed in November, 1918, after the conclusion
-of the European hostilities.</p>
-
-<p>The one other important oil-pipe-line which calls for
-mention is that connecting the oil-fields of Persia with
-the coast. In this scheme, the British Government is
-heavily interested, and, though there has been much
-criticism of its action, there is no doubt that, in due
-time, the Persian fields will play an important part in
-the supply of petroleum products to England, and, in
-that connection, the Persian pipe-line must naturally
-prominently figure, since, without it, there would be
-numerous difficulties to be contended with in getting
-the oil to the coast.</p>
-
-<p>The carrying of large quantities of petroleum products
-over the seas of the world is a subject which has taxed
-the minds of experts quite as much as that of land
-transport. For many years it was the rule to ship
-petroleum products overseas in the ordinary barrels
-(approximately, 42 gallons each) to the consuming
-countries. It was a costly business, for, apart from
-the initial cost of the barrels themselves, they took up
-a very considerable space on the vessels, which was not
-proportionate with the quantity of oils carried. Leakage
-also played a very important r&ocirc;le in this ocean transport,
-and, generally, the principle left much to be desired.
-The <i>Atlantic</i> was doubtless the first vessel designed to
-carry petroleum in bulk from America, but records
-show that some years previously&mdash;in 1863&mdash;a Mr.
-Henry Duncan, of Kent, sent the first oil-carrying
-vessel to Europe. The vessel, however, never completed
-her voyage, for she was lost in the Gulf of St.
-Lawrence, just as she was starting on her trip across
-the Atlantic. The <i>Charles</i>&mdash;quite a small vessel&mdash;also
-<span class="pagenum" id="Page_72">72</span>
-played a part in the early days of bulk oil transport
-across the Atlantic, for this steamer was, I believe, the
-first to employ iron tanks for the bulk transport of
-petroleum. After these first few attempts to convey
-petroleum in bulk from continent to continent, tank
-vessels steadily wiped the barrel-carrying boats off
-the seas. It was found that not only did oils carried
-in bulk take up but one-half the space of those in
-barrels, but the cost of the oak-staved barrels themselves
-(usually 5s. each) was obviated. At first, sailing
-ships were adopted to meet the newer requirements,
-but later, vessels propelled by steam were introduced.</p>
-
-<p>At first the shipbuilders had nothing to guide them
-in the shape of practical experience of bulk oil carriers,
-but, from small things, a great ocean trade in bulk
-petroleum products soon grew. It is interesting to
-note the enterprise which English shipbuilders displayed
-in this new method of handling petroleum for ocean
-transport, for during at least two decades the vast
-bulk of construction of oil carriers took place in English
-shipbuilding yards. The opening of the Far Eastern
-fields of production led to the construction of a large
-number of oil tankers&mdash;each of increasing size&mdash;for
-Messrs. M. Samuel and Company, and these were named
-after various shells. The fleet of “Shell” tankers to-day
-ranks as one of the finest in the world, and forms the
-connecting link between the prolific oil-producing
-properties of the “Shell” Transport and Trading
-Company, Ltd., in the Far East, and the demand for
-petroleum products in this and other countries, the
-vessels themselves being owned by the Anglo-Saxon
-Petroleum Company, Ltd., one of the influential owning
-interests in the wide ramifications of the “Shell”
-Company.</p>
-
-<p>For several years the oil tanker <i>Narragansett</i>, owned
-<span class="pagenum" id="Page_73">73</span>
-by the Anglo-American Oil Company, Ltd. (London),
-held claim to being the largest bulk oil carrier in the
-world, for the good ship had a capacity of nearly
-11,000 tons of products. The size of this vessel may
-be judged from the fact that she had a length between
-perpendiculars of over 510 feet, with a 63 feet beam,
-while her moulded depth was 42 feet. This vessel, which
-marked a distinct step forward in oil tanker construction,
-belonged to Lloyd’s A1 three-deck class. The Anglo-American
-Oil Company has shown its belief in oil fuel
-for ocean power purposes by contracting for internal
-combustion-engined tankers, and the first of this class
-was launched in November, 1919.</p>
-
-<div id="A_MAMMOTH_TANKER" class="figcenter">
-<img src="images/i_p073.jpg" alt="" />
-<p class="caption">ONE OF THE MAMMOTH TANKERS OF THE EAGLE
-OIL COMPANY’S FLEET</p>
-</div>
-
-<p>It was left to the enterprise of the Eagle Oil Transport
-Company&mdash;that important concern associated with Lord
-<span class="pagenum" id="Page_74">74</span>
-Cowdray’s immense oil organization for handling
-Mexican petroleum products&mdash;to make what will ever
-go down as the most bold policy of increasing the size
-of oil tankers by 50 per cent. upon all predecessors.
-Some six years ago, just when the Mexican fields were
-commencing to pour forth their flood of oil for the
-world’s requirements, the Eagle Oil Transport Company
-included in its programme of activities the building of
-an immense fleet of oil tankers, and it was decided that
-a number of these should each have a capacity of
-15,000 tons of petroleum products. There were many
-who asserted that the limit to the size of oil tankers
-had been reached, but, undaunted, the Company went
-forth with their policy. It was a bold stroke, yet a
-successful one, for not only have the vessels proved to
-be very practical, but they have taught a lesson in
-economy of ocean transport which has been seriously
-taken to heart by practically all engaged in ocean oil
-transport.</p>
-
-<p>I had the honour of being one of the invited guests
-at the launch of the first of these gigantic oil carriers,
-and of subsequently experiencing a trip in the mammoth
-floating “tank.” The vessel behaved admirably at
-sea, and in a chat with the designer, I recollect asking
-if there were any reason to believe that the limit in
-size had been reached. The reply was pointed: “So
-long as we can have loading and discharging berths large
-enough to enable such large vessels to be manipulated,
-we can easily go beyond the present size.” Events
-have proved that the policy adopted by the Eagle Oil
-Transport Company was justifiable, for already a new
-oil tanker, the <i>San Florentino</i>, has been built, having
-a capacity of over 18,000 tons.</p>
-
-<p>Before leaving this interesting subject of ocean oil
-transportation, I should like to emphasize the distinct
-<span class="pagenum" id="Page_75">75</span>
-step forward which is marked by these latest oil tankers.
-To-day, we have entered the era when oil fuel has
-passed its experimental stages and become one
-of the greatest boons to those associated with the
-navigation of the seas. The ease with which oil fuel
-is handled is remarkable, for vessels of the largest
-size&mdash;that is, those using oil instead of coal for power
-purposes&mdash;could replenish their stores within a few
-hours at any oil port. In the transport of petroleum
-by the modern tankers, the taking on board of a full
-cargo is accomplished in about a single day, thanks to
-the most improved means of pumping oil from the shore
-tanks through flexible pipes. The great oil tankers
-trading between this and other countries and Mexico,
-load up off the Mexican coast by means of a submarine
-pipe-line, and, reckoning but fourteen return trips per
-annum, it will easily be apparent what immense stores
-of petroleum can with ease be brought to the centres of
-consumption. Compare this with the primitive methods
-of transport in barrels, and it will be readily seen with
-what rapidity the hands of progress have moved during
-comparatively recent years.</p>
-
-<p>The vast majority of oil tankers to-day, true to their
-calling, derive their power from oil, for they burn it
-under their furnaces, and, therefore, are not liable to
-those tedious delays so inseparable from the use of
-coal, and should severe storms beset their passage in
-Mid-Atlantic, then a little oil pumped overboard will
-quell the most turbulent sea and permit a safe passage
-onward.</p>
-
-<p>It is evident, however, that the motor-engined oil
-tanker will be the order of the future, for already
-vessels are being built which utilize oil fuel internally&mdash;a
-much more economical process than burning it under
-boilers.
-<span class="pagenum" id="Page_76">76</span></p>
-
-<h2 id="CHAPTER_VI">CHAPTER VI<br />
-
-<span class="medium">PETROLEUM AS FUEL</span></h2>
-
-<p>So much has been written of late as to the use of petroleum
-as fuel for the purposes of steam-raising, that the
-reader is bound to be more or less <i>au fait</i> with the
-subject. It is, of course, one of vast importance, and
-during the next decade is certain to receive far more
-consideration than it has hitherto done, owing to the
-general desire that our coal wealth shall be conserved
-as much as possible. Given the one allowance that oil
-fuel can be procured at anything approaching a reasonable
-figure&mdash;and there is no reason why, in normal
-times, this reasonable price should not be prevalent
-all over the world&mdash;then petroleum offers many advantages
-over its older competitor, coal. The ease with
-which large quantities can be handled, the simple
-method of operating anything which is fired by petroleum
-as fuel, and the fact that its heat-giving units are
-far higher than those of coal, will ever be the chief
-factors governing its popularity.</p>
-
-<p>Many years ago, fuel oil made its serious d&eacute;but, but
-at that time the supply of the product was very
-uncertain, and, consequently, progress in passing from
-the old to the new form of power-raising was slow.
-To-day, however, matters have materially changed.
-The crude oil output has been immeasurably increased,
-and many fields whose production of crude oil is
-essentially suited for fuel purposes have been opened
-up. In this respect, the oil-fields of Mexico have no
-parallel, and it is recorded that, once these fields are
-provided with adequate storage and transport facilities,
-<span class="pagenum" id="Page_77">77</span>
-they can easily supply the whole of the fuel oil necessary
-for the world, and at the same time have immense
-quantities to spare.</p>
-
-<p>But, though the subject of petroleum as fuel has
-aroused much attention for some years, there is still
-an erroneous idea prevailing as to what really is fuel oil.
-A word or two on this question will, therefore, not be
-without interest. Fuel oil is that portion of crude oil
-which is incapable of giving off by the process of ordinary
-distillation those lighter products of petroleum known
-as motor spirit, illuminating oils, or lubricants. It is,
-in a word, the residue of distillation which is unsuitable
-for refining purposes. It represents a black, tarry
-liquid, and is, of course, minus those fractions that go
-to produce the refined products. Many there are who
-refer to crude oil as fuel oil, but this is a misnomer,
-though crude oil, in many instances, is utilized for the
-purposes of fuel. In this chapter, however, when I
-speak of fuel oil, I am referring not to the crude oil as
-it comes from the ground (and which has a comparatively
-low flash) but to the article of commerce, the
-residue of distillation, which is the real article&mdash;fuel oil.</p>
-
-<p>The headway which fuel oil has made during the
-past few years has been remarkable, though it is safe
-to say that its general use is still in its infancy. In no
-matter what capacity it has been tried as a heating or
-steam-raising agent, it has proved itself capable of
-withstanding most successfully the most stringent tests,
-and has convinced all who have given the question
-serious consideration that it holds numerous advantages
-over coal, yet has no drawbacks. Perhaps the most
-recent impetus which has been given to the use of
-fuel oil is that following the introduction of it, and now
-its general adoption, throughout the units composing
-the British Navy. On land, however, it has for some
-<span class="pagenum" id="Page_78">78</span>
-years achieved marked distinction. Especially is this
-the case in regard to its use on locomotives, the United
-States railways alone consuming last year over 6,000,000
-tons of fuel oil. In the realms of industry, fuel oil, too,
-is claiming the attention of those large industrial
-establishments, and to-day is largely used for creating
-intense heats, such as are necessary in hardening,
-annealing, melting and smelting, rivet heating, glass-melting,
-etc.</p>
-
-<p>Let me first of all refer to the use of oil fuel for
-marine purposes. Fifteen years ago, its use was very
-strongly advocated by Sir Marcus Samuel, Bart., for
-marine purposes, and he approached the British Government
-in an endeavour to get it taken up. Matters
-moved very slowly, but eventually oil fuel was adopted,
-and Admiral Sir William Pakenham asserts that it was
-due to the unceasing efforts of Sir Marcus Samuel
-that the Admiralty vessels constructed during the war
-were oil burners. The largest of this new class of
-vessels is the <i>Queen Elizabeth</i>. Oil fuel is now largely
-used in place of coal on our great liners, vessels like
-the <i>Aquatania</i> and <i>Olympic</i> having gone over to its
-general use.</p>
-
-<p>There are, of course, many reasons which have
-commended fuel oil to the experts as a substitute
-for coal. In the first place, inasmuch as one ton of
-fuel oil is equal to more than one-and-a-half tons of coal,
-the radius of action of units fitted for utilizing fuel oil
-is increased over 50 per cent.&mdash;I speak from the point
-of view of bunker weight. Again, one ton of oil occupies
-considerably less space than an equivalent weight of
-coal, while this advantage can be materially increased&mdash;as
-is now the usual practice&mdash;by carrying the fuel oil
-in double-bottom tanks. Then the bunkering question
-is one of vital moment. Fuel oil can be taken on board
-<span class="pagenum" id="Page_79">79</span>
-under far cleaner conditions, and at a greatly accelerated
-rate, than would be possible with coal. There is no
-arduous manual labour required. Once the hose connections
-have been made, the fuel oil is pumped on
-board at the rate of hundreds of tons an hour, and a
-few hours suffice to re-fuel our largest battleship. But
-it is when bunkering at sea is required that fuel oil
-further emphasizes its immense advantages. This
-question was some years ago one of the problems of
-naval strategy: to-day it is regularly carried out in
-the simplest possible fashion, hose connections to a
-standing-by oil tanker being all that is required.</p>
-
-<p>Another advantage of fuel oil is that materially
-increased speed can rapidly be attained, for, with fuel
-oil fired furnaces, the ship’s boilers can be forced to
-nearly 50 per cent. above normal rating without that
-great strain on the personnel which would be essential
-in burning coal under forced draught. Then there is
-the great saving of labour effected when burning fuel
-oil, the stokehold staffs being reduced by quite 90 per
-cent. The fuel oil is automatically fed to the furnaces
-and mechanically fired, the maximum heat of the oil
-burners being attained within a few minutes of starting.
-But the absence of smoke when the battleship is proceeding
-at full speed is, perhaps, one of the most important
-advantages which the use of fuel oil gives to the
-units of the fleets employing it. The emission of dense
-volumes of smoke, which are ever present on a coal-fired
-vessel, is quite absent when fuel oil is used, and this
-advantage is twofold, for not only does it prevent the
-giving away of the location of the battleship, but it
-also renders its own gun-fire more efficient.</p>
-
-<p>The advantages attendant upon the use of fuel oil
-for naval vessels are, in the main, also strikingly
-apparent when oil is adopted for the mercantile marine.
-<span class="pagenum" id="Page_80">80</span>
-It is many years ago since the oil tankers of the
-“Shell” Transport and Trading Company, Ltd.,
-commenced to do the voyage regularly from the Far
-East to this country and back without an intermediate
-port of call. To-day, practically every oil tanker
-afloat burns fuel oil. But, of recent date, fuel oil has
-reached wider application by reason of its being adopted
-on many cargo and passenger vessels, and, had the
-European War not considerably hampered ordinary
-shipbuilding construction, we should have seen ere this
-a number of the largest vessels crossing the Atlantic
-exclusively running on oil. In fact, arrangements have
-been made whereby many of our Transatlantic lines
-will operate exclusively on fuel oil, which will be taken
-on board in the United States.</p>
-
-<div id="TAKING_OIL_FUEL_ABOARD" class="figcenter">
-<img src="images/i_p081.jpg" alt="" />
-<p class="caption">TAKING OIL FUEL SUPPLIES ON BOARD</p>
-</div>
-
-<p>My friend, Mr. J. J. Kermode, of Liverpool&mdash;the
-well-known fuel oil expert&mdash;has taken the most prominent
-part in calling general attention to the immense
-superiority of fuel oil over coal, and it is due to this
-gentleman’s untiring energies that not only does our
-Navy to-day use fuel oil to such an extent, but that
-those responsible for ocean passenger transport have
-taken the matter up so seriously. There are three
-general headings under which fuel oil use will affect
-transport costs. They are as follow: (<i>a</i>) by increased
-passenger or cargo capacity, (<i>b</i>) by increased speed,
-and (<i>c</i>) by a great reduction in running costs. As to
-the increased capacity, I have already shown that fuel
-oil can be stored in considerably less space than coal,
-and the simplicity of both bunkering fuel oil, and using
-it on vessels, has also been touched upon. With reference
-to the increased speed which vessels utilizing fuel
-oil can attain over those running on coal, I have a
-concrete example in front of me. Two sister ships of
-the Eagle Oil Transport Company&mdash;the <i>San Dunstano</i>
-<span class="pagenum" id="Page_81">81</span>
-and the <i>San Eduardo</i>&mdash;each of 9,000 tons deadweight
-capacity, are fitted to burn coal and fuel oil respectively.
-Upon a trip carried out under careful observation, the
-weight of fuel consumed worked out as two to three in
-favour of fuel oil, while the indicated horse-power
-developed showed an 18 per cent. improvement in the
-case of the oil-fired vessel. But the striking fact of
-the comparison is that the <i>San Eduardo</i> made the round
-voyage to Mexico&mdash;out and home&mdash;eight days quicker
-than the other, this additional speed being solely due
-to the fact that with fuel oil it was possible to maintain
-consistent speed throughout the voyage&mdash;an impossible
-matter when coal is consumed. If space permitted,
-I could enumerate many cases where the results in
-favour of fuel oil are even more strikingly apparent, but
-<span class="pagenum" id="Page_82">82</span>
-I will content myself by briefly referring to calculations
-made by Mr. Kermode, based upon voyages of our
-largest liners: they are sufficiently interesting and
-suggestive to record here. On an average, says Mr.
-Kermode, to maintain a speed of 25 knots, 5,500 tons
-of coal are consumed upon the voyage between Liverpool
-and New York by one of the mammoth liners; or 11,000
-tons for the round trip. Some 3,300 tons of fuel oil&mdash;which
-could be stored if necessary (and as will frequently
-be done in the future) in the double bottom of the
-vessel&mdash;would, by automatic stoking, do even more
-work than 5,500 tons of coal. Calculating the daily
-consumption of 600 tons of coal now used for 24 hours,
-this represents about 2,000 tons less fuel on a five days’
-trip, land to land run, or 4,000 tons less, out and home.
-The utilizing of the vacant space thus saved for merchandise
-would bring in a very handsome income. Of the
-312 firemen and trimmers now employed for a coal-fired
-liner, 285 might be dispensed with, and occupation
-found for them under healthier conditions ashore, say
-in handling the additional cargo which would be carried.
-The saved accommodation in this respect could be
-allotted to third-class passengers, of whom at least
-another 250 could be carried. Our mammoth liners
-are fitted with 192 furnaces in order to produce 68,000
-horse-power (as was the case of the <i>Mauretania</i> and the
-<i>Lusitania</i>), and, on the assumption that thirty-two
-fires are cleaned every watch, 10,000 indicated horse-power
-is lost every four hours through burning down
-and cleaning, a quite unnecessary operation with fuel
-oil. Figures such as these show the startling possibilities
-of fuel oil for marine purposes.</p>
-
-<div id="LIQUID_FUEL_BURNERS" class="figcenter">
-<h3>TYPICAL LIQUID FUEL BURNERS</h3>
-<img src="images/i_p083a.jpg" alt="" />
-<p class="caption">THE KERMODE STEAM BURNER</p>
-
-<img src="images/i_p083b.jpg" alt="" />
-<p class="caption">KERMODE’S AIR JET BURNER</p>
-
-<blockquote>
-
-<p>In the steam burner, the oil enters through B, the valve G giving it a whirling
-motion. The steam goes round the cone A. <i>F</i> is the air cone, the amount
-of air being adjusted by the openings D by means of a perforated strap E.
-In the air jet burner the oil enters at A. The previously heated air enters
-at the branches B and C, and as the air passes C it meets the oil as it passes
-the control valve operated by E.</p></blockquote>
-</div>
-
-<p>But it is on land, as well as on sea, that we find fuel
-oil rapidly making headway, for, as far back as 1889,
-hundreds of the Russian locomotives went over to the
-<span class="pagenum" id="Page_83">83</span>
-<span class="pagenum" id="Page_84">84</span>
-burning of a petroleum residue. This was the first
-practical application of fuel oil for railway haulage.
-To-day, nearly 50,000,000 barrels of fuel oil are consumed
-annually by the various railroads in the United States,
-and, according to the official figures I have of the total
-mileage of fuel oil for the past twelve months, the
-United States oil-burning locomotives did journeys
-aggregating over 145,000,000 miles. Mr. Hall, of the
-American International Railway Fuel Association, is
-responsible for the statement that, owing to the fact
-that the steaming capacity of the engines is materially
-increased, a locomotive running on fuel oil can haul a
-load of considerably greater tonnage and at a much
-increased speed than would be possible with a coal-fired
-engine. Many Continental railways use fuel oil rather
-than coal; the Roumanian and Austrian State Railways,
-the Western Railway of France, the Paris and Orleans
-Railway, being a few of the principal.</p>
-
-<p>So far as England is concerned, the use of fuel oil
-has not made great headway, for the reason that, while
-on the one hand, the majority of our great railway
-systems pass through the coal-producing fields, there
-has, on the other hand, until recently been an absence
-of organization for the supply of fuel oil. The Great
-Eastern Railway many years ago successfully ran
-oil-fired locomotives.</p>
-
-<p>It is evident that oil fuel will be increasingly used
-in the future for locomotive purposes, and at the
-time of writing&mdash;December, 1919&mdash;the L. and N.W.
-Railway are carrying out experiments on express
-engines, with a view to being able to some extent to
-discard coal.</p>
-
-<p>In our industrial life of to-day there are a vast number
-of instances where fuel oil is rapidly displacing coal:
-the oil-fired furnace has been brought to a stage of
-<span class="pagenum" id="Page_85">85</span>
-<span class="pagenum" id="Page_86">86</span>
-perfection, and is being extensively and increasingly
-employed both in this country and abroad in regard to
-metallurgical and industrial processes. Without going
-into detail respecting the numerous spheres in which
-the new fuel finds profitable employment it is safe to say
-that these are being extended every year.</p>
-
-<div id="OIL_FUEL_FOR_MARINE_PURPOSES" class="figcenter">
-<img src="images/i_p085.jpg" alt="" />
-<p class="caption">OIL FUEL FOR MARINE PURPOSES</p>
-
-<blockquote>
-
-<p>Arrangement of heaters, filters and pumps for burning oil fuel for marine
-purposes. The installation is that of the Wallsend-Howden pressure system.</p></blockquote>
-</div>
-
-<p>A wealth of inventive effort has been bestowed in the
-perfection of the burners employed to consume fuel oil.
-Leaving aside for the moment the principles governing
-the use of oil in the internal combustion engines of the
-Diesel or semi-Diesel type, fuel oil used for the production
-of power is introduced into the furnace in the
-form of a spray, this being accomplished by atomizing
-the oil in its passage through a specially designed
-burner. Of these burners, there are numerous makes
-upon the market, each of which possesses its own
-characteristics and advantages. The one feature common
-to all fuel oil burners is the arrangement for
-atomizing the oil fuel into a fine spray, so that each
-particle of fuel shall receive sufficient oxygen to ensure
-its complete combustion. Theoretically, it requires
-about 14 lb. of air to effect the combustion of 1 lb. of
-oil, and on the thorough combustion of the fuel oil
-depends the efficiency of the furnace. There are three
-distinct methods by which the atomization is brought
-about, and each of these means possesses its advantages
-and limitations. By one method, the fuel oil is atomized
-by the use of steam; by the second method, compressed
-air is used; while a third system&mdash;that of applying
-pressure to the oil supply itself&mdash;is sometimes adopted.
-Steam is the method usually employed for stationary
-boilers and locomotives, for it is the simplest to manipulate,
-and does not call for the employment of auxiliary
-apparatus in the shape of air compressors or oil pumps,
-but most industrial oil furnaces work on compressed
-<span class="pagenum" id="Page_87">87</span>
-air, which gives exceptionally good results. There is
-no doubt that, with the use of compressed air, say
-admitted at a pressure of 80 lb., a saving in fuel oil is
-shown over using steam at similar pressure, but the
-cost of the compressing plant, which must be taken
-into consideration, is sufficient to wipe out the greater
-part of this advantage.</p>
-
-<div id="THE_SCARAB_OIL_BURNER" class="figcenter">
-<img src="images/i_p087.jpg" alt="" />
-<p class="caption">THE “SCARAB” OIL BURNER</p>
-</div>
-
-<p>With respect to the use of the fuel oil direct under
-pressure, this system generally involves the heating of
-the fuel oil, as well as its filtration, the fuel being
-supplied under pressure by means of pumps. The
-system is extensively employed at the present time on
-marine boilers operating with forced or induced draught,
-and, in this connection, the Wallsend system stands
-pre-eminent.</p>
-
-<p>Since writing the first edition of this little volume
-considerable advance has been made in connection
-with the use of oil fuel for general power-raising purposes,
-<span class="pagenum" id="Page_88">88</span>
-and much of this expansion has been consequent upon
-the introduction of a new burner&mdash;the “Scarab”&mdash;which
-is here illustrated. It is the invention of Lieut.-Col.
-Macdonald, and is the outcome of the war. When
-the Lieut.-Colonel was on service in Mesopotamia, he
-recognized the possibilities of oil fuel, for while wood
-and coal were being transported from India at great
-cost, oil was running to waste on the neighbouring fields
-of the Anglo Persian Oil Company. The Lieut.-Colonel
-therefore introduced a method of cooking by
-oil fuel, and immediately on his return to England he
-carried out experiments which led to the introduction
-of the “Scarab” burner. It is a simple contrivance,
-and is practically fool-proof, since there are really no
-parts to get out of order. The oil fuel flows through
-a tube by gravity, while another tube carries air compressed
-to about 10 lbs. pressure. The oil and air meet
-some inches distant from the mouth of the burner,
-and the combustion of the fuel, which is turned into a
-finely atomised spray, is complete. Experiments have
-been made with the burner for domestic purposes, and
-it has been adopted already in several London hotels
-for cooking purposes, though its general application is
-practically unlimited.
-<span class="pagenum" id="Page_89">89</span></p>
-
-<h2 id="CHAPTER_VII">CHAPTER VII<br />
-
-<span class="medium">PETROLEUM AS A LIGHTING AND COOKING AGENT</span></h2>
-
-<p>From times immemorial, petroleum has been utilized
-as a lighting agent. Fifteen hundred years ago we
-have records of its use in the Far Eastern countries,
-and in the seventh century one of the Emperors of
-Japan ordered that his temples should be illuminated
-by the sacred oil light. And from that long distant
-date to the present times, petroleum has played a not
-insignificant part in the provision of artificial light
-throughout the world. For centuries, petroleum, as
-a means of artificial light, had the field to itself, and,
-though the Ancients consumed large quantities for
-lighting purposes, the apparatus used for burning the
-oil were of a most primitive type, giving results which
-to-day would be considered far from satisfactory.</p>
-
-<p>About the middle of the last century, when the
-petroleum industry was making steady advance in
-several European countries, and a little later, when the
-United States entered upon its era of oil progress, there
-was marked development in the use of oil for lighting
-purposes. The more modern oil lamp was introduced,
-and it is worthy of record that in one year alone over
-fifty patents were taken out in the United States for
-oil lamp improvements. The Germans, too, were not
-behind in this respect; in fact, it is very largely due to
-the numerous German improvements that the general
-governing principles of present-day oil lamps became
-so popular.</p>
-
-<p>There is no doubt that the ordinary oil lamp has
-often been, and still is, unjustifiably condemned for
-<span class="pagenum" id="Page_90">90</span>
-certain defects which are not inherent in it. It necessarily
-demands attention if it is to give a satisfactory
-light, but, unfortunately, this attention is not adequately
-bestowed upon it, and complaints are the result. I have
-frequently argued that, just as it is possible with inattention
-to make the most improved pattern of oil lamp
-operate unsatisfactorily, so is it possible, with a little
-care and common sense, to get a really good and
-satisfactory light from the cheapest oil lamp obtainable.</p>
-
-<p>In days gone by, the quality of the oil was, in many
-cases, unsuitable for burning in the ordinary lamps;
-its lighting power was very inferior, and it gave off a
-distinctly unpleasant smell. To-day, however, the
-illuminating oil sold throughout the world is a first-class
-article, and its flash-point has been so raised that it
-can be used freely without there being any suggestion
-of its lack of safety. One still hears of the “dangerous”
-paraffin lamp, but, to all intents and purposes, whatever
-danger was attendant upon the use of oil lamps has
-long ago departed, though, of course, care must always
-be exercised, a remark which naturally applies to
-every illuminant. It is not within my province to give
-a series of hints to the ordinary user of illuminating oil,
-but it is well to draw attention to a point which is
-frequently overlooked: that is, to see that lamps should
-be kept well filled. It has been established that the
-light from an oil lamp is greatly affected by the quantity
-of oil in the reservoir. An increase of 20 per cent. can
-be secured in the illuminating power of the lamp if only
-the oil is kept to a good level in the container. This is
-due to the assistance given to the capillary action of
-the wick by the higher level.</p>
-
-<p>The advent of gas, and, at a later period, electric
-current, for illuminating purposes has, to an extent,
-restricted the use of oil as an illuminant, yet the reader
-<span class="pagenum" id="Page_91">91</span>
-will be surprised to learn that at least 2,000,000 oil
-lamps are nightly lighted throughout Great Britain.
-The inhabitants of the majority of our villages have
-to fall back upon oil lamps after nightfall, and even in
-remote spots where enterprising gas companies have
-laid gas mains large numbers still keep faith with oil,
-no doubt by reason of its cheapness in normal times.</p>
-
-<p>The greatest improvement made in regard to oil
-lighting has been in connection with the introduction
-of the incandescent mantle. As a result of this innovation,
-several elaborate designs of lamps have been placed
-on the market, and to-day oil is frequently used in large
-residences in preference to the more modern illuminants.
-This is due, without doubt, to the fact that oil light is
-particularly soft, and, while giving a great illuminating
-power when consumed under the best conditions, lacks
-that dazzling brilliancy which causes injury to the eyes.</p>
-
-<p>One of the earliest methods of utilizing petroleum
-under an incandescent mantle was the Kitson system,
-according to which illuminating oil is compressed to
-about 50 lb. per square inch in a suitable vessel, forced
-through a soft brass tube of very small bore into a
-heating chamber, and, subsequently, through a needle
-orifice to a Bunsen burner. The Kitson system, which
-has found many adherents in the United Kingdom and
-abroad, is particularly adapted for lighthouse illumination,
-and in such cases where large units are essential.
-It is interesting to record the fact that for some time
-one of London’s main West-end thoroughfares was
-illuminated by incandescent oil lamps, and, though they
-are now superseded, no tangible reason was given as
-to why these highly economical means of illumination
-were ever removed.</p>
-
-<p>Space forbids my referring to the various designs of
-oil lamps on the English market to-day: they may be
-<span class="pagenum" id="Page_92">92</span>
-counted by their hundreds, while still a larger number
-of those which have either been unsuccessful or have
-found no sale may be found in the records of the
-Patent Office.</p>
-
-<p>During comparatively recent times, devices have
-been brought forward whereby remarkably good results
-have been achieved by the use of gaseous vapour for
-portable lamps. In these cases, motor spirit is vapourized
-and used under an incandescent mantle. The
-best known of these lamps is the “Petrolite.” In this
-lamp, a porous stone is impregnated with suitable
-hydrocarbons&mdash;motor spirit&mdash;and a current of air is
-introduced, the necessary draught being provided by
-the use of a fairly long chimney. The great advantage
-of the “Petrolite” lamp is that of its perfect safety,
-for if by any chance the lamp becomes overturned and
-the chimney displaced or broken, the draught ceases,
-and with it, the generation of the inflammable vapour;
-the lamp, therefore, immediately going out.</p>
-
-<p>But while this method of utilizing motor spirit for
-illuminating purposes has been adopted to a very large
-extent by means of portable lamps, a greater field has
-been developed both in this and other countries in
-connection with the domestic and industrial use of
-petrol air-gas for lighting purposes. These apparatus
-in the main possess but slight differences. The essential
-principle of each is that motor spirit is carburetted and
-then, in the form of an oil gas, conducted through
-pipes in the same manner as coal gas is burned, to the
-rooms in which it is required. The carburetted air-gas
-is automatically produced, and the small cost at which
-these automatic plants can be supplied has rendered
-this system of lighting deservedly popular. Its great
-economy also is an important point, for 1 gallon of
-motor spirit will yield almost 30 cubic feet of vapour.
-<span class="pagenum" id="Page_93">93</span>
-This vapour, in order to form a lighting agent, is mixed
-to the extent of over 98 per cent. air and less than
-2 per cent. petrol vapour, so that 1 gallon of motor
-spirit will produce, approximately, 1,500 cubic feet of
-air-gas. The plants, which are usually worked by a
-small hot-air engine (or, alternately, by the use of
-weights), supply only the demand created, and their
-control is automatic perfection.</p>
-
-<div id="AN_OIL_COOKER" class="figcenter">
-<img src="images/i_p093.jpg" alt="" />
-<p class="caption">THE ANGLO-AMERICAN OIL COMPANY’S OIL COOKER</p>
-</div>
-
-<p>To-day, petroleum plays quite an important part in
-heating arrangements, and several stoves are upon the
-market which burn the ordinary illuminating oil. The
-prettily designed heating stoves of the “Perfection”
-<span class="pagenum" id="Page_94">94</span>
-or “Reform” make are largely in use, the efficacy and
-economy of these being responsible for their popularity.
-Various makes of oil cookers are also in large demand.
-These range from the small variety like the “Primus”
-stove, which burns illuminating oil under pressure, to
-the oil cooking stoves of the Anglo-American Oil
-Company, Ltd., which are quite competent to meet the
-requirements of practically any household. These
-latter stoves consume illuminating oil by means of the
-circular wick arrangement, and are in several sizes, one
-of the best being that containing three lighters. Two
-of these are under the oven, and one at the end can be
-used for boiling purposes. Speaking from several
-years’ experience of these stoves, I can say that they are
-truly perfection. They are very economical, are easily
-cleaned, and when in full operation give off not the
-slightest odour. The oven is more readily heated than
-with the coal gas apparatus, and the properly diffused
-heat cooks all kinds of food most readily and perfectly.
-The illustration of the stove given on the preceding
-page will afford the reader a good idea of the apparatus,
-which deserves to be even more popular than it is at
-present.
-<span class="pagenum" id="Page_95">95</span></p>
-
-<h2 id="CHAPTER_VIII">CHAPTER VIII<br />
-
-<span class="medium">INTERNAL COMBUSTION ENGINES</span></h2>
-
-<p>In no other sphere of employment has petroleum made
-such rapid strides during the past two or three decades
-as those recorded in connection with its use in internal
-combustion engines, and one of the most interesting
-features of modern mechanical engineering is their
-development. The advent and immediate popularity
-of this kind of engine has been responsible for some of
-the most remarkable conquests of mankind over the
-forces of Nature, for it has brought into being the
-automobile, the aeroplane, the dirigible airship, and
-a host of other inventions. It has also been responsible
-for quite a new departure in ocean transport, for
-experiments have proved that the largest vessels can
-be very economically operated by means of the internal
-combustion engine.</p>
-
-<p>It might, by way of introduction, be well to explain
-for the benefit of the uninitiated, the meaning of the
-term “Internal combustion engine.” As most of my
-readers are well aware, the steam, or, rather, to be
-exact, the highly heated water vapour which drives
-the steam engine, is supplied from boilers which are
-heated by the burning of coal, oil fuel, or, sometimes,
-gas, and such engines might, therefore, be called
-“external combustion engines,” since the fuel is
-consumed in apparatus external to the engine proper.
-Such a term, however, is not in use amongst engineers,
-and might raise a superior sort of smile if used in
-their presence. It will be readily seen from the
-<span class="pagenum" id="Page_96">96</span>
-foregoing that a great deal of weight and apparatus of
-some complication is required before the water vapour
-which drives the steam engine can even be provided.</p>
-
-<p>In the case of the internal combustion engine, the
-fuel (motor spirit or the heavier oils) is introduced
-directly into the engine and there vapourized and
-mixed with air so as to form an explosive mixture, so
-that all boilers, with the necessarily complicated
-systems of piping, etc., are done away with. It needs
-no imagination to understand the enormous saving of
-weight and space resulting from this elimination of
-the boiler, and of the room which it would occupy.</p>
-
-<p>The latter-day demands for the provision of lighter
-and yet lighter, as well as space-saving propelling
-machinery for submarines, airships, aeroplanes, motor-cars,
-etc., especially during the war, have enormously
-stimulated the development of the engine which consumes
-its own fuel, and which is known as the internal
-combustion engine. A very wide field has thus been
-opened out for the exercise of the engineer’s ingenuity,
-and he has availed himself to the full of the opportunities
-thus created, never failing to rise to the occasion when
-fresh demands have been made upon him.</p>
-
-<p>In these circumstances, it is not at all surprising to
-find that numerous firms have given considerable
-attention to the manufacture of the internal combustion
-class of engine, and many varieties, for a multiplicity of
-purposes, are upon the market. The limits of space
-effectively prevent my detailing the list of even the
-largest manufacturers; I will therefore content myself
-by referring to but one firm&mdash;Messrs. Vickers, Ltd.&mdash;who
-are now the largest manufacturers in the Kingdom.
-This progressive firm has grappled with the internal
-combustion engine problem from the earliest stages
-of the petrol engine to the latest forms of the heavy
-<span class="pagenum" id="Page_97">97</span>
-oil engine and its remarkable developments, and a large
-section of their establishment at Barrow-in-Furness is,
-and has long been, set aside exclusively for the design
-and manufacture of the heavy oil internal combustion
-engine. A very large staff of expert engineers has
-been selected for the work, while experiments with a
-view to improvements being effected in details are
-continually being conducted in the establishment. The
-result is that the development of this engine at the
-Barrow works has been attended with the highest
-success, a fact which is not widely known to the general
-public.</p>
-
-<p>I take it as a great compliment that permission has
-been given me in this book to refer somewhat in detail
-to the achievements of Messrs. Vickers, Ltd., in this
-respect, for, hitherto, publicity in connection with this
-section of the firm’s operations has been strictly withheld.
-One of the latest and, it might well be said, the
-most important developments in connection with
-Messrs. Vickers’ activities, is the Vickers patent system
-of fuel injection, which enables an engine of the Diesel
-type (that is, using heavy oil) to be successfully run
-without the use of an air compressor for injecting the
-fuel into the engine. Before the introduction of this
-system, an air compressor, with its attendant complication
-and weight, had to be used for the introduction of
-the fuel into the engine. The elimination of this compressor
-has resulted in considerable economy in weight,
-space, and attendance, which, it will readily be seen,
-is a step in the right direction, whilst the efficiency of
-the engine has also been improved. The disadvantages
-attendant upon the use of the air compressor were early
-comprehended by Messrs. Vickers, and they have
-spared no efforts (nor expense) in developing the system
-which has led to its elimination.
-<span class="pagenum" id="Page_98">98</span></p>
-
-<p>The reader will require no knowledge of the subject
-to understand that the question of fuel consumption is
-one of the highest importance in any engine system,
-and, in regard to this point, Messrs. Vickers have made
-a special study, with the result that whilst the ordinary
-consumption in a Diesel engine with air compressor
-is &middot;41 lb. brake horse-power an hour (or 184 grammes
-<i>par force de cheval</i>), that firm have been able to reach
-the low figure of &middot;376 lbs. B.H.P. an hour (or &middot;170
-grammes <i>par force de cheval</i>).</p>
-
-<p>As one might expect, Messrs. Vickers, in bringing
-their engine to its present state of perfection, have,
-perforce, had a varied experience with fuel oils&mdash;and
-a considerable one, too,&mdash;for they have experimented
-with oils from all the well-known producing fields, and
-find that, under their system, practically any fuel oil
-which can be made to flow may be utilized in their
-engines&mdash;a fact which, in its importance, speaks for
-itself. The physical properties of the oils used by them
-have, naturally, differed very considerably. For instance,
-specific gravities have varied from &middot;810 to &middot;950 flash
-points from 100&deg; Fahr., to upwards of 250&deg; Fahr., whilst
-the viscosities, which the lay mind might well be excused
-for thinking of as “degrees of stickiness,” have varied
-from that of the ordinary kerosene (illuminating oil)
-to the thick asphaltic fuel oil which comes from Mexico.
-Readers may judge from this of the painstaking and
-difficult experiments that have been carried out in the
-Barrow works.</p>
-
-<p>The advantages derivable from the use of the Vickers
-system could not, obviously, be withheld from general
-use, and the firm have upwards of twenty licensees now
-manufacturing internal combustion engines under their
-designs. This fact, though not familiar to “the man
-in the street,” is known in the manufacturing world.
-<span class="pagenum" id="Page_99">99</span></p>
-
-<div id="VICKERS_NEW_ENGINE_FRONT_VIEW" class="figcenter">
-<img src="images/i_p099a.jpg" alt="" />
-<p class="caption">900 B.H.P. LOW DUTY VICKERS ENGINE FOR OIL
-TANK VESSELS</p>
-</div>
-
-<div id="VICKERS_NEW_ENGINE_REAR_VIEW" class="figcenter">
-<img src="images/i_p099b.jpg" alt="" />
-<p class="caption">BACK VIEW OF ENGINE
-<span class="pagenum" id="Page_100">100</span></p>
-</div>
-
-<p>Already a very large number of their engines have
-been constructed, the approximate brake horse-power
-produced by same being upwards of 337,600. These
-engines are of various sizes, ranging from 200 to 2,000
-horse-power. The cylinders vary in diameter from
-10 to 29 inches, and are arranged to work in groups to
-suit the power required, and may be either two-stroke
-or four-stroke cycle. The high temperatures set up in
-starting the engine are sufficient to ignite the fuel, the
-introduction of which in a finely-divided condition has
-been the object of so many experiments at Barrow; and
-so successful in this direction have Messrs. Vickers been
-that they are now able to deal satisfactorily, by careful
-adjustments of the engine to suit the various fuels,
-with the most troublesome oils.</p>
-
-<p>As already referred to, the elimination of the air
-compressor constitutes the chief improvement embodied
-in the Vickers type of engine, seeing that the greatest
-worry which the Diesel engineer has had to encounter
-has been this very compressor. Needless to remark,
-therefore, this feature alone strongly recommends the
-new system to the experienced man. Further, the
-power required to drive the compressor above-mentioned
-is considerable, so that economy is not one of the least
-results due to its absence.</p>
-
-<p>The principal advantages that can be claimed for the
-Vickers engine may be summarized as under&mdash;</p>
-
-<blockquote>
-
-<p>1. Safety in working. (Many accidents have been
-due to the use of the air compressor.)</p>
-
-<p>2. Weight is saved.</p>
-
-<p>3. Space is saved.</p>
-
-<p>4. Lower air compression in the cylinders for
-ignition, and economy in air for starting the engine.</p>
-
-<p>5. Reduction in first costs; and</p>
-
-<p>6. Reduction in upkeep expenses.</p></blockquote>
-
-<p><span class="pagenum" id="Page_101">101</span></p>
-
-<div id="HIGH_DUTY_ENGINE_FOR_LIGHT_CRAFT" class="figcenter">
-<img src="images/i_p101a.jpg" alt="" />
-<p class="caption">900 B.H.P. HIGH DUTY REVERSING ENGINE FOR
-LIGHT CRAFT</p>
-</div>
-
-<div id="LOW_DUTY_MARINE_ENGINE" class="figcenter">
-<img src="images/i_p101b.jpg" alt="" />
-<p class="caption">1,250 B.H.P. LOW DUTY VICKERS MARINE ENGINE
-FOR OIL TANK VESSEL
-<span class="pagenum" id="Page_102">102</span></p>
-</div>
-
-<p>With regard to (4), the low compression claimed is
-rather interesting, as Messrs. Vickers have successfully
-demonstrated that, although a high compression temperature
-is necessary in the ordinary Diesel engine with
-the usual air spraying compressor, a much lower degree
-suffices for their mechanical injection system, whilst
-there is a greater certainty of ignition of the fuel on its
-first introduction, even with the existence of lower
-compression in the cylinder. The reason of this is that
-the spraying air used in the ordinary Diesel is usually
-compressed to about 60 atmospheres (900 lb. per square
-inch). What happens when air spraying is practised
-is this. When the cold air carrying the very high
-pressure above mentioned enters the cylinder, it necessarily
-expands, owing to the lower temperature already
-existent there, and such expansion chills the whole
-mixture, frequently preventing ignition on the first
-introduction of the fuel.</p>
-
-<p>Under the Vickers system of mechanical fuel injection,
-there is, of course, no introduction of very highly
-compressed air, and, consequently, first ignition is
-rendered easier. From this, it will at once be seen that
-an oil possessing a high flash point can be more easily
-burned in the Vickers engine than in the ordinary
-Diesel, with the necessary adjunct of an air compressor.
-Provision is also made (should the type of fuel used
-require it) for a higher temperature of compression, and
-such oils are, therefore, much more easily dealt with
-than in the ordinary Diesel engine.</p>
-
-<p>From what I have already said, it will be evident to
-the reader that it is only a question of time for air
-spraying, with its attendant use of the compressor, to
-become a thing of the past.</p>
-
-<p>The mechanism involved by the adoption of the new
-system of fuel injection developed by Messrs. Vickers
-<span class="pagenum" id="Page_103">103</span>
-is exceptionally simple. It consists of a small fuel
-pump, such as is ordinarily used for pumping fuel, a
-reservoir or accumulator of novel form to retain the
-charge, and a valve with a special nozzle to admit the
-fuel in the form of a fine spray into the cylinder. The
-accumulator, I may here mention, is merely a tube,
-flattened slightly on the sides, and of sufficient length,
-when the oil is forced into it, to enable it to yield and
-store up a charge of fuel at the required high pressure,
-as explained in the next paragraph.</p>
-
-<p>The principal feature of the system (and the secret
-of its great success) is the very high pressure at which
-the oil is injected into the cylinder. This pressure is
-kept up at about 4,000 lb. the square inch, so that the
-oil fuel, when it enters the cylinder and encounters the
-hot compressed air therein, is in the form of a very finely
-atomized mist, a conjunction of circumstances most
-favourable for ignition. As in all great inventions, the
-simplicity of the arrangement is not the least of its merits.</p>
-
-<p>This somewhat rough, yet brief, outline will suffice
-to explain the astonishing success of the Vickers heavy
-oil engine, but, if the whole history of these (and other)
-noteworthy experiments could be written, a highly
-interesting story would be produced, showing indomitable
-perseverance in the face of discouragement, difficulty,
-and very heavy expense.</p>
-
-<p>I have avoided touching upon the ordinary kerosene
-engines, for I imagine they are too well known to need
-more than passing reference here; nor have I gone into
-the details concerning the advent of the ordinary
-Diesel engine, which was a German invention.</p>
-
-<p>I have preferred rather to deal with a British invention
-which is already revolutionizing oil engine construction
-generally, and which, obviously, has limitless fields
-open to it.
-<span class="pagenum" id="Page_104">104</span></p>
-
-<h2 id="CHAPTER_IX">CHAPTER IX<br />
-
-<span class="medium">PETROLEUM IN ENGLAND</span></h2>
-
-<p>There will be no chapter in this little treatise which
-will be more carefully perused than the present one, for
-the subject is of direct interest to every reader, whether
-actually associated with the search for oil or not.
-To-day, as I have already mentioned in another chapter,
-this country is dependent for practically the whole of
-its petroleum requirements upon foreign oil-producing
-countries, and though ample evidence is forthcoming to
-suggest that there are possibilities of obtaining liquid
-oil in England&mdash;in fact, many years ago this was
-actually obtained in not inconsiderable quantities&mdash;it
-is very strange that only recently have serious efforts
-been made in the direction of systematic search for the
-valuable liquid.</p>
-
-<p>That large quantities of petroleum can be produced
-in this country is agreed by all who have given the
-subject more than passing thought; the question is,
-by what means shall this production be brought about.
-While it is problematical as to the amount of commercial
-success which will attend the present search
-for liquid oil, though those who are most competent
-to judge believe that large stores of liquid oil will be
-found, it is already certain that there are vast possibilities
-in England for the production of petroleum
-from the treatment of the bituminous shales which
-freely abound in many parts.</p>
-
-<p>It will be seen, therefore, that the subject really
-divides itself under two heads, and it is with the first
-of these&mdash;that of the possibilities of finding liquid oil
-reserves in commercial quantity in this country&mdash;that
-<span class="pagenum" id="Page_105">105</span>
-I will now proceed to deal. For this purpose, it is
-better that we divide the country into three zones&mdash;western,
-middle, and eastern. The western zone will
-include the whole of England between the third meridian
-of West Longitude and the Irish Sea, the Bristol Channel,
-and the North Atlantic. It will be bounded on the north
-by a line running near Whitehaven to the mouth of
-the River Tees, and having the English Channel as its
-southern boundary. In this zone, the most northern
-occurrence of petroleum is found at Whitehaven,
-Cumberland, and the next is found on the Lancashire
-coast. Other indications are to be found in Denbighshire
-and in the northern part of the South Wales coalfield.</p>
-
-<p>The occurrences of petroleum in what may be described
-as the middle zone are far more important and numerous
-than those of the western zone. They are important
-in the physical conditions to which they are subordinate,
-and in their greater productiveness. They are more
-numerous, and their geological position is more in direct
-relationship with later dynamical alterations in the
-rock structures. In this zone occurs the most important
-occurrence which has so far been recorded&mdash;I refer to that
-at Alfreton, in Derbyshire&mdash;for it was from this natural
-flow of petroleum over 70 years ago that Dr. Young,
-the founder of the Scottish shale oil industry, manufactured
-paraffin wax. Near Chesterfield is also unmistakable
-evidence of the presence of liquid oil at depth, for
-considerable quantities have flowed from the workings
-at the Southgate Colliery. In this middle zone, too,
-are the occurrences of petroleum found near Wigan and
-West Leigh, while flows of oil are recorded from several
-spots round Barnsley and Ilkeston. The petroleum
-find at Kelham, near Newark, some few years ago, is
-important for the reason that the drill in this case, at
-a depth of somewhere about 2,400 feet, struck true
-<span class="pagenum" id="Page_106">106</span>
-petroliferous sands, underlain by dark, waxy shales.
-The oil rock has been proved to consist of loose, coarsely
-grained sand, having all the features of strata in which
-petroleum is ordinarily met with. The great value of
-this boring is that it has demonstrated the fact, so long
-doubted by many of the best geological authorities in
-Great Britain, that all the geological conditions, dynamical
-as well as historical, are present in this locality for
-the formation and subsequent retention of liquid petroleum,
-and that, as Dr. William Forbes-Leslie puts it,
-despite all contention to the contrary, a true oil-field
-exists in England.</p>
-
-<p>So far as I am aware, however, North Staffordshire
-alone, among all the places in England, has the distinction
-of so far having produced liquid petroleum in
-sufficient quantity for refining purposes. It was in
-1874 that oil was discovered in a seam of coal in one of
-the pits of the Mear Hay Collieries, Longton, and a
-contract was ultimately made with a Mr. William
-Walker, Senr., of Hanley, who erected plant at Cobridge
-for the purpose of refining the oil. I am indebted to
-Mr. Walker for the following facts, though in a general
-way I have full corroboration for them, for it was
-within a couple of miles from the collieries that I was
-born and spent my earlier days. The seam of coal
-wherein the oil was discovered was one of the deeper
-seams, and by no means one of the best in the district.
-At that time, the flow produced more than 5 tons of
-crude oil per week, and inasmuch as England then was
-not inundated with American petroleums, great possibilities
-were seen in the discovery. But almost before
-the refining of the crude had settled down to be a
-commercial undertaking, the plans of operation were
-upset, for a serious explosion occurred at the colliery,
-which rendered necessary the closing of the pit. Twelve
-<span class="pagenum" id="Page_107">107</span>
-months later, however, they were re-opened, and after
-the re-sinking had proceeded awhile, the oil was found
-far up the shaft, and in due course the shaft was cleared
-and the mines re-opened. Refining operations were
-resumed and continued for a year or two, when the
-pits had to be closed on account of the shafts shrinking.</p>
-
-<p>However, in the course of a number of years, petroleum
-appeared in another colliery less than a mile from the
-Mear Hay Colliery, and again Mr. Walker secured the
-contract for the whole of the output. The quantity of
-crude oil found was several tons weekly, and a large
-stock had accumulated when Mr. Walker’s attention
-was drawn to this new find. This time, the supply
-continued for a longer period, and then again the seam
-of coal in which the deposit occurred had to be abandoned.
-Thus, while the resources of this part of the
-Charnian axis have not been properly tested&mdash;for, in
-the opinion of the colliery owners, it is not possible
-profitably to work coal and oil at the same time&mdash;there
-is ample evidence to suggest that, in the not distant
-future, there may be most interesting oil developments
-in this part of North Staffordshire.</p>
-
-<p>The eastern zone of the country doubtless furnishes
-the most interesting petroleum occurrences in England.
-Here, the interest does not so much depend upon the
-number of escapes, as upon the promising geological
-conditions subserving the production and possible
-retention of petroleum. According to the investigations
-of Dr. W. Forbes-Leslie, F.R.G.S., whose valuable contribution
-on the subject of the occurrence of petroleum
-in England forms one of the most important papers ever
-read before the Institution of Petroleum Technologists,
-the northern line of oil occurrences runs from Filey,
-north-westerly, the principal finds being located at
-Filey, Pickering, and Kirby Moorside. Oil, too, has
-<span class="pagenum" id="Page_108">108</span>
-been found at Brigg, in Lincolnshire, at Market-Rasen,
-Haugmont, and Donnington-on-Bain. The line of oil
-occurrences starts at King’s Lynn, on the Wash, and
-runs south-westwards as far as Cottenham, in Cambridgeshire,
-the principal occurrences being at King’s Lynn,
-Downham, Littleport, and Ely. The information
-obtained by the bore-hole at Kelham, to which I have
-already referred, is a factor of great value when taken
-into consideration and applied to an analytical review
-of the petroleum seepages in England. It is a positive
-proof that a true oil-bearing stratum underlies the
-surface rocks, at any rate, in one part of the British Isles,
-and, when it is considered in relation with the surface
-position of the oil escapes on the eastern flank of the
-Pennine Chain, it suggests a possible connection between
-those underground sources of oil and those surface
-escapes which are scattered, seemingly at such random,
-along the Pennines.</p>
-
-<p>The attempts which were made but a few years ago
-to develop the possibilities of the Heathfield district of
-Sussex, with a view to obtaining commercial quantities
-of natural gas, were also prompted with the idea of
-maybe striking deposits of liquid petroleum, though it
-is doubtful, both from a geological point of view, and
-from the nature of the natural gas which is there in
-abundance, whether liquid oil will be met with in that
-part of the country. What has been established,
-however, is the fact that large quantities of natural gas
-are to be found in this delightful part of rural Sussex,
-and it is a great pity that the necessary enterprise has
-not been forthcoming to permit of a really serious
-development. Some years ago, I motored an American
-oil-man over the gas-fields of Heathfield, and he assured
-me that, if such evidences were found in the States,
-there would immediately be a great boom, and finance
-<span class="pagenum" id="Page_109">109</span>
-would freely flow in to stimulate development. But
-not so with Heathfield, for the opinion is freely held
-that this field is too near our midst for real speculative
-enterprise. Remove it to the wilds of Russia, and
-British finance would appreciate the immense potentialities
-which to-day lie dormant. For those readers who
-are, perhaps, not conversant with the history of the
-Heathfield gas developments it is well to record the
-fact that attention to these deposits was drawn years
-ago, when a well was being drilled for water on the
-property of the Brighton and South Coast Railway,
-near the present station. Strong smells of gas prevented
-working for some time, and as these increased it was
-decided that the better course would be to suspend
-drilling operations. The tubes of the well were partially
-drawn out, and the well sides caved in, yet the gas
-pressure increased. The well was abandoned as a
-water well, but pipes were attached to the cap at the
-mouth, and a steady pressure of gas was emitted. It
-was decided that, inasmuch as the gas burned with a
-pure flame, the station should be lighted with it. That
-was over twenty years ago, and to-day the well is still
-producing, and the station is still lighted with the
-natural gas, which needs no refining. Not only so,
-but a well-appointed hotel close by utilizes the gas for
-lighting and cooking.</p>
-
-<p>A project was set on foot for sinking further wells
-and piping the gas to the southern coast resorts for
-general use, but lack of capital prevented progress
-being made, and so, to-day, Heathfield, like many other
-centres in the country, awaits the attention of the
-carefully-directed drill to open up its underground wealth.</p>
-
-<p>In August, 1917, the feeling in many parts of the
-country that the Government should take some action
-in order to develop these latent resources became so
-<span class="pagenum" id="Page_110">110</span>
-strong that a Bill was introduced into Parliament with
-this object in view. No attempt was made to progress
-with it until the following October, when a financial
-resolution was rejected by the House of Commons on
-the question of royalties. An amendment was adopted
-against the payment of royalties to the owners of
-surface lands who had made no attempt to obtain
-liquid oil, and who, as a matter of fact, did not know
-that it was there. Two months later the Petroleum
-(Production) Bill was dropped.</p>
-
-<p>In March, 1918, however, a most encouraging turn
-of events occurred, for Lord Cowdray, head of the
-great firm of Messrs. S. Pearson &amp; Son, and associated
-with those influential interests in oil represented by the
-Mexican Eagle Oil Company, the Eagle Oil Transport
-Company, and the Anglo-Mexican Petroleum Company,
-made offers to the Government which were couched in
-the following terms&mdash;</p>
-
-<p>(<i>a</i>) For the period of the war to place at the disposal
-of the Government, free of all cost, the services of his
-firm and geological staff for the purpose of exploration
-and development.</p>
-
-<p>(<i>b</i>) If the Government did not wish to risk public
-money on what had to be deemed a speculative enterprise,
-Messrs. S. Pearson &amp; Son were prepared to drill,
-at their own risk and expense as licensees, subject to
-certain areas being reserved to them. The offer committed
-the firm to an expenditure of, possibly, &pound;500,000.</p>
-
-<p>The public spirited offer of Lord Cowdray was most
-thankfully accepted by the Government and, with a
-minimum of delay, drilling sites were marked out for
-the commencement of active operations.</p>
-
-<p>Lord Cowdray’s geological staff particularly favoured
-the neighbourhood in Derbyshire, near to which Young
-made his first discoveries of oil, and Chesterfield was
-<span class="pagenum" id="Page_111">111</span>
-selected as headquarters for the new oil developments.
-The first oil well to be drilled in this country was commenced
-in September, 1918, at Hardstoft, near Pilsley,
-on the Great Central main line between Sheffield and
-Nottingham, and on Tuesday, 18th October, the inauguration
-of England’s oil industry took place there in
-the presence of many oil notabilities. American drilling
-machinery of the percussion type was installed and, in
-view of the great depth to which it was expected the
-drill would have to proceed before encountering commercial
-quantities of oil, the well was commenced with
-a diameter of 18 inches.</p>
-
-<p>A depth of just over 3,000 ft. had been reached at
-the commencement of June, 1919, at which depth oil
-production started. The well was put on the pump
-and began its steady yield of a good grade crude oil,
-the production being about fifty barrels per week.
-Up to the time of writing (December, 1919) the well is
-maintaining its yield.</p>
-
-<p>Other wells have been sunk in the Chesterfield area
-at Ironville, Heath, Renishaw, Brimington, Ridgeway
-and in North Staffordshire and Scotland, but so far the
-success met with is not promising, though it is quite
-possible that commercial oil may be encountered.</p>
-
-<p>Private enterprise has also commenced the sinking
-of a well at Kelham, Nottinghamshire, near a site
-where, many years ago, small quantities of oil were
-found in an experimental coal bore. Here, however,
-no definite result has been attained. The Company&mdash;The
-Oilfields of England, Ltd.&mdash;is operating under a
-drilling license from the Government under which
-the Government may take over the properties on a
-valuation should commercial oil be found.</p>
-
-<p>Let us now briefly turn to the other aspect of the
-question of the production of petroleum in England&mdash;that
-<span class="pagenum" id="Page_112">112</span>
-is, of producing oils from the treatment of the bituminous
-shales. There are several sources from which
-petroleum can be obtained in this country by distillation,
-and these are: (1) oil-shales, (2) coal, (3) cannel coals and
-torbanites, (4) blackband ironstones, (5) lignite, and
-(6) peat.</p>
-
-<p>Though in the past the oil shales of England have not
-been recognized as possessing great potential value,
-comparatively recent discoveries have proved that at
-home we have enormous deposits of oil shales of remarkable
-richness. These are, so far as at present proved,
-situate in Norfolk and at short distance from King’s
-Lynn. Dr. Forbes Leslie, F.R.G.S., has for many
-years carried out a number of tests as to the quality and
-quantity of the shales in the Norfolk field, and as a
-result of his work it has been proved that upwards of
-twenty miles square, there is an area in Norfolk underlaid
-with rich oil-shales. From a geological point of
-view the shales are remarkable, for they uniformly lie
-within 300 ft. of the surface, several of the seams being
-but a few feet below ground. Their prolific nature
-may be judged from the fact that in sinking test wells
-to depths of 300 ft. in various parts of the field, over
-150 ft. of this oil shale has been drilled through, and it is
-thus established beyond all possible doubt that at home
-we have all the materials at hand for a huge home
-production of oil.</p>
-
-<p>The whole of the field has been secured by English
-Oilfields, Ltd., a company which, by reason of the
-influential interest behind it, is bound to be strikingly
-successful in its future developments in Norfolk.</p>
-
-<p>The crude oil content of the shales is surprisingly
-great, for these shales yield approximately 60 gallons
-of oil per ton, or considerably more than double as much
-as the Midlothian shales. Dr. Forbes Leslie asserts
-<span class="pagenum" id="Page_113">113</span>
-that there is already proved over 2,000,000,000 tons of
-shale on the properties in Norfolk, and after having
-carefully inspected the whole of the fields on many
-occasions, I think Dr. Leslie’s statement may be taken
-as very conservative, for after all it is only a question
-of a simple sum of calculation which allows one to arrive
-at the figures above quoted.</p>
-
-<p>Commercial developments have already been commenced
-on the Norfolk fields, and it is safe to assume
-that they will become of enormous National importance,
-since the production of home oil supplies is to-day
-considered of vast National interest.</p>
-
-<p>The other shales&mdash;such as the Kimmeridge shales of
-Dorset and Sussex&mdash;are not being worked commercially
-in spite of strenuous efforts, and there remains much to
-be done before a steady supply of petroleum can be
-counted upon from these sources. Of the other possible
-sources of supply, coal yields too little, and at the
-same time is considered too valuable to be utilized on a
-general scale; lignites are not yet opened for development
-on a sufficient scale; and peat has proved troublesome
-and expensive to treat owing to the difficulty of
-eliminating the water. This, therefore, leaves cannel
-coals, torbanites, and blackband ironstones, which are
-closely associated and, in numerous cases, easily obtainable.
-Cannel coal, I should explain, differs from the
-ordinarily known coal on account of its being less
-carbonized; it contains many fragments and particles
-of vegetable matter still showing their natural forms,
-though flattened by pressure. The percentage of
-hydrogen to carbon is higher in a cannel coal than in
-the bituminous coal, the percentage of inorganic matter
-is usually higher also, and the fracture and general
-appearance serve to distinguish this variety of
-carbonaceous deposit.
-<span class="pagenum" id="Page_114">114</span></p>
-
-<h2 id="CHAPTER_X">CHAPTER X<br />
-
-<span class="medium">PETROLEUM IN THE BRITISH EMPIRE</span></h2>
-
-<p>The desire that the British Empire should be self-supporting
-in every possible way has been the predominating
-idea of our statesmen for many years: it is
-to be regretted, however, that such little progress has
-been recorded in the direction of the achievement of
-a practical result. This remark applies to many
-commodities, yet to none more so than to petroleum and
-its products. To-day, as much as at any preceding
-time, the Empire is dependent upon foreign sources
-of supply for the vast bulk of its petroleum products.
-It is true that in the United Kingdom there is a growing
-production of oil from the shale-fields of Scotland, but
-this total represents but a fraction of the large quantities
-of products which are annually required to meet the
-ever-increasing demands in commercial and domestic
-circles.</p>
-
-<p>At the outbreak of the European War, it was forcibly
-brought home to us as a nation that we were in a
-position regarding our petroleum supplies of absolute
-dependence upon other countries. The refined products
-were an essential part of the war, for without them it
-would have been impossible to have continued for
-almost a single day, and yet, practically every gallon
-used had to be transported thousands of miles, and
-from a country which at that time was neutral. To
-make matters even worse, the Continental sources of
-supply from which we had been previously drawing
-large quantities of petroleum were closed to export,
-for, through the Dardanelles, the Roumanian and
-<span class="pagenum" id="Page_115">115</span>
-Russian export ports were effectively shut off from the
-outside world.</p>
-
-<p>Fortunately for Great Britain, the United States
-came forward with the offer of all the petroleum products
-required for the successful prosecution of the war, and
-we owe to the United States alone all success which
-has been the natural result of possessing ample requirements
-of petroleum products both on sea and land.</p>
-
-<p>The fact, nevertheless, stands out tragically prominent
-that we as a nation have not developed our own
-oil resources in a manner we ought to have done, although
-everyone conversant with the oil business has been for
-years advocating the giving of serious attention to this
-important subject. To-day, speculative drilling for
-petroleum is proceeding in England, and it is to be
-hoped that some success will be ultimately recorded,
-but, inasmuch as I dealt with the question of Petroleum
-in England in the previous chapter, I will at the moment
-pass over this very interesting phase of the problem,
-and briefly look at the subject from an Empire point
-of view. Under the British Flag, we already have,
-or control, some excellent oil-fields in Burmah, Persia,
-Egypt, Trinidad, and Assam, and each producing
-steadily increasing quantities of crude oil. The Burmah
-fields have achieved fame mainly owing to the very
-large profits made by the chief operating company&mdash;the
-Burmah Oil Company, Ltd., whose head offices are
-at Glasgow. These have of recent years been developed
-upon most up-to-date lines, and the producing limits
-of the territory greatly extended, until now the annual
-crude oil production is upwards of 1,000,000 tons.
-The fields of Persia are very prolific, and their control
-to-day is in the hands of the Anglo-Persian Oil Company,
-Ltd., an influential concern largely controlled by the
-British Government, by reason of the investment of
-<span class="pagenum" id="Page_116">116</span>
-large sums of public moneys a few years ago. The
-development of the Persian fields is more or less in its
-initial stages, and though huge quantities of oil have
-already been produced therefrom, the limits of the
-presumably oil-bearing areas have by no means been
-defined. In order to facilitate the export of Persian
-oil, a pipe-line has been laid from the fields to Abadan,
-on the Persian Gulf, and a programme has already
-been laid down under which large quantities of
-Persian petroleum products will come upon the English
-markets.</p>
-
-<p>The Egyptian oil-fields have lately witnessed developments
-upon an important scale, thanks to the enterprise
-of the Anglo-Egyptian Oil-fields, Ltd., a concern closely
-allied with the “Shell” Combination, and having as
-its Chairman, Sir Marcus Samuel, Bart. Commercial
-supplies of crude oil have been found at several points
-near the coast of the Gulf of Suez, and a large refinery
-has been built for the refining of the oil. Down to 1914,
-the only oil finds of importance had been at Gemsah,
-where a number of oil gushers were struck, but the
-field there proved to be one of most irregular formation,
-and none of the wells gave anything like a permanent
-yield. Fortunately, in that year a field was discovered
-at Hurgada, the formation of which was found to be
-singularly regular, and the yield of which has steadily
-increased until, at the time of writing, the production
-of crude oil in it is over 15,000 tons per month. That
-additional wells have not been sunk and the field further
-increased has been primarily due to the difficulties of
-obtaining the necessary plant under war conditions.
-Some very large wells have already been brought in,
-but, so far, the petroleum industry in Egypt is quite
-in its infancy. It is quite obvious, however, that in
-the next few years the production of petroleum in
-<span class="pagenum" id="Page_117">117</span>
-Egypt will be increasingly large, and the developments
-are bound to have a significant bearing upon the
-oil situation generally.</p>
-
-<p>The same remarks equally apply to the Trinidad
-fields, where the anticipations of those associated with
-the pioneer oil operations have been more than fulfilled.
-Some prolific fields have been opened up, and the
-production to-day is such that an export trade of
-considerable magnitude can be maintained. Developments
-upon the Island were impeded by the total
-absence of roads in the oil districts, and much pioneer
-work had to be undertaken before it was possible to
-commence the serious exploitation of the fields themselves.
-The crude oil of Trinidad is of both the light
-and the heavy grades, the former showing remarkable
-percentages of motor spirit, while the latter is used
-not only as fuel oil but also for the treatment of roads
-so as to render them dustless. It is in Trinidad that
-there is the famous pitch lake, from which for many
-years large quantities of asphalt have been removed
-and exported for a variety of purposes. Trinidad
-asphalt, in fact, is well known all over the world. The
-potentialities of the Island are rapidly being appreciated,
-for its geographical position is such that would make
-it a practical base for the “oiling” of the great ocean-going
-vessels which are rapidly passing over from coal
-to fuel oil burning.</p>
-
-<p>While on the subject of oil-fields which are under
-the British Flag, mention must be made of Canada,
-whose oil industry has been developed for many years.
-The principal producing fields are in Ontario, and the
-town of Petrolia is the centre of the petroleum interests.
-But the wells are not of the prolific class, and almost
-without exception show a very poor return for operating.
-Many of them are sunk only to the shallow strata, and
-<span class="pagenum" id="Page_118">118</span>
-their operation would certainly be profitless were not a
-system employed by which quite a number of small
-producing wells are pumped by central power. From
-time to time, Canada has experienced various oil booms,
-one of the most recent being that which occurred in
-Calgary, in 1914. A well showed a small production of
-high-grade oils, and immediately the country for miles
-round became the centre of an oil fever, which gradually
-died down when a number of unsuccessful developments
-took place. To-day, the output of the Canadian fields
-is steadily declining, and all efforts to stimulate the
-production have so far failed. Even a Government
-bounty of 1½ cents a gallon of oil produced has failed
-to encourage an increase in output, and it is evident that,
-unless new fields are opened out, the future offers little hope.</p>
-
-<p>The total production of petroleum to-day by the
-oil-fields developed in the British Empire represents
-but about 2 per cent. of the world’s total petroleum
-output: it is therefore clear that, if we intend to secure
-our oil supplies in the future from territory under the
-British Flag, large supplementary sources of supply
-must be found. It is doubtful whether any additional
-liquid oil regions will be found to produce oil in commercial
-quantity, for, though several attempts have
-been made in various parts with this end in view, they
-have not achieved success, and numerous instances
-might be quoted where the employment of British
-capital in an endeavour to bring about this much desired
-result has met with failure.</p>
-
-<p>The question then arises: Is it possible to augment considerably
-Empire-produced oils from other means of
-development? In this direction, the future is full of
-promise, for, though Nature has not given the Empire
-freely of liquid oil-producing fields, there are immense
-areas of oil-bearing shales at home and in our Dominions
-<span class="pagenum" id="Page_119">119</span>
-overseas which can, without great difficulty, be turned
-into most useful account. It is well known that great
-deposits of retortable material exist within the Empire’s
-bounds, and many of these deposits are exceedingly
-rich. At the moment, however, scarcely any have
-been exploited, and none adequately developed. From
-time to time, many samples of oil-bearing shales from
-various parts of the Empire have been sent to this
-country for analysis, and these have usually been put
-through Scottish retorts with varying results.</p>
-
-<p>But the unsatisfactory analyses have not been due
-to the qualities of the shale or torbanite examined, but
-to the methods by which the distillations were carried
-out. The well-known consulting oil engineer&mdash;Mr. E. H.
-Cunningham-Craig&mdash;made a special point of this in a
-most interesting article which recently appeared in one
-of the Empire magazines, and he pointed out that the
-reasons for the unsatisfactory conclusions arrived at
-were very simple and obvious. The Scottish retorts
-are designed to deal effectually with highly inspissated
-and, as a rule, not very rich, oil-shales. The recovery
-of the maximum amount of sulphate of ammonia is a
-desideratum; a sufficient supply of incondensable gases
-to fire the retort must be produced; while the recovery
-of the lighter fractions (motor spirit) of the material
-treated was not an object of the first consideration.
-For these purposes, says Mr. Cunningham-Craig, large
-and high vertical retorts are used, the temperature of
-distillation is comparatively high, superheated steam
-is blown into the retorts, and a fairly complete extraction
-of volatile matter is achieved. But to apply such
-methods to a very rich and fresh torbanite&mdash;such as
-the richer shales of New South Wales&mdash;is absurd,
-involving many practical difficulties and not giving the
-most remunerative results.
-<span class="pagenum" id="Page_120">120</span></p>
-
-<p>Similarly, the rich oil-shales of New Brunswick
-(Canada), though more nearly allied to the Scottish
-shales, differ from them both chemically and physically
-to such an extent as to require different treatment.
-Let me now briefly refer to the deposits which are
-known in the Dominions and Colonies that give promise
-of yielding oil in commercial quantities by destructive
-distillation. I will first take the shales of Canada,
-for though, as I have pointed out, the Dominion’s
-production of liquid oil is steadily decreasing, there
-are numerous deposits of shales which only await
-careful exploitation and development in order to
-render Canada a petroleum-producing country of considerable
-magnitude. The oil-shales of New Brunswick
-have been known for many years, yet only a fraction
-of the area has been yet prospected. Experiments
-with the shales have shown that they are capable of
-producing nearly 50 gallons of crude oil the ton of
-shale treated, while ammonium sulphate has been
-produced at the remarkable proportion of 77 lb. a
-ton. Albert County is one of the best shale-fields, and
-it is here that a Government scheme has now been
-promulgated. The shales of Nova Scotia are likewise
-to be commercially developed, but so far no serious
-attempt has been proposed to deal with the enormous
-areas in Newfoundland, the Province of Quebec, and
-other already known regions of Canadian oil-shales.</p>
-
-<p>Australia can boast of very large areas of shales:
-some deposits have been operated for several years,
-but others are still awaiting development. From a
-variety of causes, however, the shale-oil industry of
-Australia has never been set upon a profitable footing.
-The Commonwealth Oil Corporation some years ago set
-out to accomplish much, but the only thing which it
-seemed to do with energy was to sail to destruction.
-<span class="pagenum" id="Page_121">121</span>
-Its failure cannot be said to have been due to any
-absence of the material it set out to treat for petroleum,
-for at every turn enormous quantities were opened up.
-It would appear that the immensity of the possibilities
-which awaited its operations was one of the prime
-reasons for its premature decay, while there is no doubt
-that the system it employed was by no means the best
-for treating the shales. A more simple and less expensive
-method of retorting the shales would doubtless
-ensure successful working. In Queensland, Tasmania,
-and New Zealand the presence of these shales has been
-proved over extensive areas, and though for the most
-part they have so far been neglected, there is reason to
-hope that, in the not distant future, the advantage to
-be derived from their commercial exploitation will be
-the more widely appreciated. A most lucrative industry
-could be built up by the Commonwealth of Australia
-by the distillation of the torbanites there, and though,
-perhaps, it is too much to expect that an export trade
-in petroleum products could be built up, there is no
-doubt whatever that the large requirements for petroleum
-products in the Dominion could easily be met by
-the production from home sources.</p>
-
-<p>The possibilities of developing a shale industry in
-Africa are not particularly promising, though they are
-by no means out of the range of probability. In the
-coal series in the Transvaal, beds of what are known
-as “oil-shales” are encountered in several localities
-The seams generally are thin, and in some cases
-unworkable, but the material is very rich, and has
-proved capable of yielding high percentages of crude
-oil.</p>
-
-<p>In Sarawak (British North Borneo) the “Shell”
-Company is carrying out most important and highly
-successful developments, which are bound to have
-<span class="pagenum" id="Page_122">122</span>
-far-reaching and gratifying results in regard to
-developments under the British Flag.</p>
-
-<p>As I have shown, the problem of Imperial oil supply
-would be far on its way to solution by the development
-of the various shales in the British Empire, and the pity
-is that a more progressive policy has not been adopted
-in regard thereto long before the subject became of
-such pressing importance. Each of our Colonies&mdash;like
-the Mother Country&mdash;is a large consumer of petroleum
-products, and each is also totally dependent upon
-imported supplies, yet within the borders of each are
-to be found large deposits of the necessary crude
-material.
-<span class="pagenum" id="Page_123">123</span></p>
-
-<h2 id="CHAPTER_XI">CHAPTER XI<br />
-
-<span class="medium">PETROLEUM’S PART IN THE GREAT WAR</span></h2>
-
-<p>A perusal of the preceding chapters of this little work
-will have made it clear to the reader that petroleum
-and its products play a most important part to-day in
-the life of nations: if, however, one would be impressed
-with the immensely significant r&ocirc;le which petroleum
-products have played in the conduct of the great
-European War, a brief reference to the subject will
-amply suffice. From the commencement of the Titanic
-struggle in 1914, it became obvious to those who were
-most competent to judge that, if victory was to be on
-the side of the Allies, it was imperative that they
-should possess sufficient reserves of petroleum products
-for all purposes, for it was evident then that activity
-would not be limited to armies on the land, but that
-the air and the sea would also become battle-grounds
-whereon the destinies of nations would in part be
-decided.</p>
-
-<p>Germany, too, saw this; before the war it had been
-practically dependent upon regular supplies from the
-United States as well as from Roumania, but the bulk
-of its requirements came from the former mentioned
-country. With its States’ oil shipments cut off, it
-turned its attention to securing at least part of its
-stocks from the neutral North-Western European
-countries, which, in their turn, were likewise dependent
-upon America. The ruse worked for some time, and
-the unsuspecting American exporters shipped cargoes
-to Denmark, Norway, and Sweden with little idea that
-the bulk of these were ultimately to find their way into
-<span class="pagenum" id="Page_124">124</span>
-Germany. It was only when the figures were published
-in the States as to the abnormally large quantities of
-petroleum products that had been sent to the European
-neutral countries that, to the thinking mind, it became
-obvious something was wrong.</p>
-
-<p>I can modestly claim to have called the attention of
-the British Government to this underhand proceeding
-early in 1915, when I not only gave them details of
-cargoes which had been delivered to various North-Western
-European ports <i>en route</i> to Germany, but also
-managed to secure the names of vessels all laden with
-such supplies, which at that time were crossing the
-Atlantic. Mr. Winston Churchill, to his credit be it
-said, acted without delay, and within a few days, as
-the vessels passed the North of Scotland, they were
-stopped, and&mdash;well, to cut a long story short, this
-country got the petroleum products which, in accordance
-with the original plan, would have gone to Germany.
-Some time afterwards there came a voice of protest
-from one or two interested persons in those neutral
-countries, for they declared that not a single barrel of
-petroleum had gone over to Germany, but evidence was
-soon forthcoming to show how well Germany’s ruse
-had worked for some months, and a prosecution in one
-of those countries made against an importing firm, for
-actually sending petroleum supplies into Germany,
-effectively closed the protest from those who would
-have liked the enemy’s desires to have been undisturbed.</p>
-
-<p>There is not the slightest doubt that Germany at
-that time was in dire straits for sufficient petroleum
-products for its military purposes: had the war been
-somewhat delayed in its commencement, she would
-have been far better prepared, for, under the auspices
-of the Government, there had been laid down an
-elaborate programme for the importation and distribution
-<span class="pagenum" id="Page_125">125</span>
-of Roumanian petroleum products throughout Germany.
-As it was, the country was unprepared, and, though
-in other directions every possible precaution had
-been taken to carry through an elaborate military
-programme of offence, the prospective dearth of sufficient
-supplies of petroleum products necessitated the enforcing
-of the most stringent regulations with regard to the
-uses of all petroleum products, excepting for military
-purposes.</p>
-
-<p>The taking of the Galician fields from the Central
-Armies by Russia gave a serious set-back to Germany’s
-military plans, and it was only when the Russians had
-to withdraw from Lemberg that the enemy was able
-to count upon sufficient supplies to meet his military
-requirements. To an extent, he was even then doomed
-to disappointment, for, when his armies arrived on the
-Galician fields, they found that practically the whole
-of the petroleum reserves had been destroyed, and a
-large number of the prolific producing wells more or
-less permanently damaged. Nor, to my mind, was
-the advance into Roumania prompted by the idea of
-territorial gains so much as to secure control of the
-country’s oil-fields. Here, again, Germany’s desires
-were in part thwarted, for the efforts of the British
-Military Mission, to which I refer elsewhere, had been
-eminently successful.</p>
-
-<p>From that time onward, however, Germany’s supplies
-of petroleum products were secured, and that she
-turned them to account was a matter of common
-knowledge. Germany, naturally, greatly valued the
-acquisition of the Roumanian oil-fields, and it must be
-to its people a great disappointment that the whole
-of these immensely prolific regions for oil production
-are now permanently removed from the nation’s
-grasp.
-<span class="pagenum" id="Page_126">126</span></p>
-
-<p>Unfortunately, the British Government did not
-seriously appreciate the importance of petroleum
-products in war as well as peace until the war cloud
-of 1914 was about to burst. It had taken no notice
-of the suggestions made from time to time that in our
-own country there might be vast petroleum reserves
-awaiting development, and it had not even shown any
-encouragement to the Scottish shale-oil industry. All
-that it had done, and even this was on the eve of war,
-was to invest over &pound;2,000,000 in the Anglo-Persian
-Oil Company, Ltd., for the development of the Persian
-oil-fields, so that the Navy could secure ample supplies
-of fuel oil. But here, however, there were difficulties
-ahead, for the Persian fields are in the interior of the
-country and have to rely upon pipe-lines to bring the
-supplies to the coast.</p>
-
-<p>Everything, therefore, depended upon the security
-of the pipe-line, and the idea which was in the minds
-of many who opposed the scheme as to the possibility
-of supplies being cut off by the activities of the insurgents,
-was by no means a mistaken one; the pipe-line was,
-in fact, partially destroyed, and the transport of fuel
-oil held up for a long time.</p>
-
-<p>As a nation, we have all along had to depend upon
-imported petroleum products, and, inasmuch as our
-supplies could be drawn at will from a variety of producing
-countries, the idea that we might at one time
-find ourselves cut off from supply does not appear to
-have occurred to many. No sooner had the war started,
-however, than we found, owing to the closing of the
-Dardanelles, that both Russia and Roumania could
-no longer attend to our requirements, while the Far
-East, owing to the great ocean journey necessitated to
-this country (and the quickest way lay through the
-Mediterranean) could not maintain regular shipments
-<span class="pagenum" id="Page_127">127</span>
-with us. It is fortunate that we found the United
-States willing, and from the start very desirous, to
-do all that was possible to help us out of a difficulty;
-while Mexico, with its wealth of British oil interests,
-catered in every way for the meeting of the enormous
-demands we made upon its resources.</p>
-
-<p>To say that petroleum products have played a highly-important
-part in the conduct of the war is but to
-under-estimate facts. The importance of their part
-has been equal to that of the supply of guns and shells,
-and, when the statement was made in the House of
-Commons in 1917 that adequate supplies of petroleum
-were quite as essential as men and munitions, petroleum’s
-part was then not over-stated. Rather would
-I say it was on the contrary, for, had there been at
-any time a dearth of any classification of petroleum
-products, then the vast naval and army organization,
-both on and across the water, would immediately have
-lost its balance, and our great fighting units would
-automatically have become useless. Just think of it for
-a moment.</p>
-
-<p>To-day, our great naval fighters&mdash;take the <i>Queen
-Elizabeth</i>, for instance&mdash;rely upon fuel oil for purposes
-of power, while our second and third line units must
-also have it, for, whether it be fuel oil or the lighter
-products of the oil refinery&mdash;I refer to motor spirit&mdash;it
-matters not, so far as supply is concerned. The whole
-of our winged fleets in the air must, of necessity, be
-useless unless they can regularly draw large quantities
-of motor spirit, and the volume they consume, even on
-a single trip, would surprise many, though it is not
-possible here to enter into figures.</p>
-
-<p>At first sight one might be inclined to think that,
-apart from petroleum products being a very useful
-adjunct to the organization of battles on land, their
-<span class="pagenum" id="Page_128">128</span>
-use is not of a very real nature, but, if we pause for
-one moment, our first impressions are disillusioned.</p>
-
-<p>It was my privilege at the end of 1917, thanks to the
-kindness of the British Foreign Office, to pay a visit
-to the fronts of France and Flanders, and there to have
-an opportunity of seeing the part which petroleum
-products did actually play. The immensity of this
-importance cannot be easily grasped, nor easily described.
-We all know the remarkable progress which had been
-made in regard to the extension of the railway systems
-throughout the zones of battle, but it will surprise many
-to learn that it was when the rail-heads had been reached,
-and between there and the real battle front, that motor
-spirit had the realm of transport to itself. Tens of
-thousands of heavy motor vehicles took up the work
-of transport when it left the railway, and it was this service
-that was required to see not only that our millions
-of men daily received their food, but each and every
-sort of ammunition also. But it was not even when the
-front line of battle was reached that motor spirit had
-finished its work. Those great machines of war&mdash;the
-tanks&mdash;had to remain stationary if they were not fed by
-large supplies of spirit, while petroleum, too, took a
-primary position in the making of the liquid fire which
-now and again we heard of as causing such havoc to
-Fritz. But, at its best, the railway was somewhat
-slow at the Front, no doubt owing to the enormous
-congestion which was inseparable from the reign of a
-state of war. Consequently, whole fleets of motor
-vehicles were employed day and night in a ceaseless
-stream of traffic, from the coastal ports right up to
-the zone of battle. Without divulging secrets, it is
-safe to say that that branch of the service alone
-demanded millions of gallons of motor spirit weekly.</p>
-
-<p>Both after as well as before battle, the products of
-<span class="pagenum" id="Page_129">129</span>
-petroleum were essential, for, when the Red Cross
-vehicles took up their humane work of transporting the
-wounded heroes of the fight, those, too, called for
-innumerable quantities of motor spirit. And when
-darkness had fallen the oil lamp came into general use.
-It was to be found wherever there was a vestige of life
-in those zones of battle: the soldiers in their, at times,
-lonely dug-outs, used oil for cooking as well as for light,
-and all vehicular traffic was guided from disaster along
-the roads by the use of oil, which also offered the only
-source of artificial light in the Red Cross vehicles. What
-an immense organization it was which depended for its
-ceaseless activities upon the products of petroleum!</p>
-
-<p>One day, while at General Headquarters, I expressed
-a desire to see the methods by which all that world of
-activity secured its necessary supplies of petroleum
-products regularly, when once they had arrived in
-France in bulk. A few days later, I was, accordingly,
-allowed to visit the immense central depot at Calais,
-at which all the petroleum products required for use
-in the organization of transport were dealt with. It is
-safe to say that at no centre in the world did there
-exist such an extensive petroleum depot, nor anywhere
-else was there an organization upon whose perfect
-working so much depended. Though motor spirit necessarily
-occupied the first position of importance, practically
-the whole range of products was dealt with. The
-motor spirit was received in bulk, but at the depot had
-to be measured into the familiar 2-gallon can (which
-was made on the spot) and sent up country in special
-trains each day. Specially coloured tins denoted the
-best quality of the spirit, and it was that which was
-reserved for the numerous aerodromes in France and
-Flanders. The magnitude of that branch of the depot
-might be guessed when I state that at the time of my
-<span class="pagenum" id="Page_130">130</span>
-visit considerably over 2,000,000 2-gallon petrol tins
-were being either stored or filled for up country dispatch.</p>
-
-<p>All kinds of lubricants were also essential for the purposes
-of war, for even motor spirit itself would be of
-little use for the internal combustion engines, if the
-engines could not secure their regular supplies of
-lubricating oils. These, too, had to be dispatched
-with remarkable regularity to every section of the
-battle zones, whilst, as I have suggested earlier, the
-daily requirements of war necessitated the distribution
-of illuminating oil in large quantities.</p>
-
-<p>But no reference to petroleum’s part in the great
-European war would be complete were it not to include
-mention of the way in which supplies of toluol assisted
-in securing victory to the Allies. Toluol, as is known,
-is necessary for the production of high explosives, and
-in the early stages of the great conflict, the output of
-high explosives was considerably restricted by the
-absence of sufficient quantities of this necessary explosive
-primary.</p>
-
-<p>It was at that time that a discovery of the utmost
-importance was made, for, as the result of investigations
-carried out at the Cambridge University, it was found
-that the heavy petroleums of Borneo contained large
-percentages of toluol.</p>
-
-<p>Sir Marcus Samuel, Bart., the Chairman (and the
-founder) of the Shell Transport and Trading Company,
-Ltd., lost no time in apprising the British Government
-of the discovery, for it is in the Borneo oils that the
-Shell Company and its allied concerns are chiefly
-interested.</p>
-
-<p>The offer for the delivery of these immense quantities
-of toluol was eagerly accepted by the British and
-Allied Governments, and from that time onward, the
-supply of high explosives was practically unlimited.
-<span class="pagenum" id="Page_131">131</span></p>
-
-<p>The French and Italian Governments have asserted
-that, but for this specific offer of toluol, the manufacture
-of high explosives would have had to remain so
-limited, that it would have been impossible to bring
-about an Allied Victory in 1918. Their thanks were
-publicly extended to the Shell Company at the conclusion
-of hostilities, and Mr. H. W. Deterding and the
-Asiatic Petroleum Company were specially thanked,
-while as far back as 1915, Sir Marcus Samuel, Bart.,
-received the thanks of the British Government for his
-invaluable war services. It was only after the firing
-of the guns had ceased on all Fronts, that it was permissible
-to record in what a remarkable manner these
-services were rendered.</p>
-
-<p>The exigencies of space have prevented my dealing,
-excepting in the most brief manner, with this interesting
-subject: I only hope I have succeeded in showing that,
-in times of war, as well as in those of peace, petroleum
-products occupy the position of first importance.
-<span class="pagenum" id="Page_132">132</span></p>
-
-<h2 id="CHAPTER_XII">CHAPTER XII<br />
-
-<span class="medium">THE SCOTTISH SHALE-OIL INDUSTRY</span></h2>
-
-<p>In view of the great interest which is now being centred
-in the production of petroleum in the British Isles&mdash;thus
-making this country to a large extent less dependent
-upon foreign sources of supply&mdash;the Shale-oil Industry
-of Scotland is assuming a new importance, for the
-reason that it is in the direction of the development of
-new oil-shale areas in several parts of the country that
-experts look with a great amount of confidence.</p>
-
-<p>It is specially interesting, therefore, to deal at some
-length with the growth of the industry, the methods
-by which the oil shales are operated, and the prospects
-for its extension.</p>
-
-<p>The name of Dr. James Young, of Renfrewshire, will
-ever be associated with the commercial exploitation of
-the oil-bearing shales in the Midlothians, for it was
-due to his enterprise that the Scottish shale-oil industry
-really owed its birth and much of its later development.
-It was while Young was managing a chemical works at
-Liverpool that his attention was drawn to small flows
-of oil which came from a coal seam at Alfreton, in
-Derbyshire. This was in 1847, and after experimenting
-with the liquid, Young succeeded in extracting therefrom
-on a commercial scale both a light burning oil
-and a lubricant, as well as wax. When the supply
-became exhausted, Dr. Young had an idea to imitate
-the natural processes by which he believed the oil had
-been formed. The outcome of this was the well-known
-Young patent for obtaining paraffin oil and other
-products from bituminous coals at slow distillation.
-<span class="pagenum" id="Page_133">133</span></p>
-
-<p>The Young process was utilized with much success
-in the United States until such time as it became
-unprofitable owing to the largely increasing production
-in America of liquid oils obtained direct from the earth.
-It was about this time that a bituminous mineral
-known as Boghead coal, and existing in the Midlothians,
-was discovered, and from this Young secured upwards
-of 100 gallons of oil from each ton treated, but soon this
-mineral was, in a practical sense, exhausted, and so the
-bituminous shales, now known as oil-shales, came in
-for attention. Before passing away from Dr. Young’s
-services in connection with the establishment of the
-Scottish shale-oil industry, it should be mentioned that
-he figures very largely in more than one of the earlier
-Scottish shale concerns. He founded the Bathgate Oil
-Company, which, in the zenith of its operations, treated
-1,000 tons of shale daily, this Company being later
-merged into the Young’s Paraffin Light and Mineral
-Oil Company, Ltd., one of the large Scottish shale-oil
-undertakings and well known throughout the world
-to-day.</p>
-
-<p>The Scottish shale-oil fields, as exploited to-day, cover
-a belt of territory which is about 6 miles broad and
-stretches from Dalmeny and Abercorn, on the Firth of
-Forth, southwards across the fertile tract between the
-River Almond and the Bathgate Hills to the moorland
-district of Cobbinshaw and Tarbrax. Throughout this
-region there are various important mining centres, such
-as Broxburn, Uphall, East Calder, Mid-Calder, West
-Calder, and Addiwell; and in connection with the
-shale-oil industry, upwards of 25,000 persons now find
-regular employment.</p>
-
-<p>The shale measures on which the shale-oil industry
-depends, form part of the calciferous sandstone series of
-Mid and West Lothian and the southern coast of Fife.
-<span class="pagenum" id="Page_134">134</span>
-The carboniferous system of Scotland may be arranged
-in descending order in four divisions, as under&mdash;</p>
-
-<p>4. Coal measures, comprising red sandstone, shales,
-and marls with no workable coals, underlaid by white
-and grey sandstones and shales with numerous valuable
-coal seams and ironstones.</p>
-
-<p>3. Millstone grit, consisting of coarse sandstones, with
-beds of fireclay, a few thin coals, ironstones, and thin
-limestones.</p>
-
-<p>2. Carboniferous limestone series, embracing three
-subdivisions, the highest of which contains three or
-more limestones with thick beds of sandstone and some
-coals, the middle includes several valuable seams of coal
-and ironstone, and the lowest is characterized by several
-beds of marine limestone with sandstone, shales, some
-coals, and ironstones.</p>
-
-<p>1. Calciferous sandstone series, forming two subdivisions.
-The upper is known as the oil-shale group,
-and is over 3,000 feet in thickness, and contains, in its
-highest part, beds of coal, usually of inferior quality,
-and, farther down, about six main seams of oil-shale,
-inter-stratified with beds of sandstone, shale, fire-clay,
-marl, and estuarine limestones.</p>
-
-<p>Although the calciferous sandstone series is well
-developed in other parts of Scotland, it has not hitherto
-yielded any oil-shale of economic importance beyond the
-limits of West Lothian, Mid Lothian, and Fife. Thin
-seams of oil-shale do occur in various places in the
-counties of Haddington and Berwick, but, generally
-speaking, the quantity is not sufficient to be practically
-worked.</p>
-
-<p>A word or two as to the oil-shales themselves. The
-shales, as known in the Lothians, are fine black or
-brownish clay shales, with certain special features which
-enable them to be easily distinguished in the field.
-<span class="pagenum" id="Page_135">135</span>
-Miners draw a distinction between “plain” and “curly”
-shale, the former variety being flat and smooth, and the
-latter contorted or “curled,” and polished or glossy on
-the squeezed faces. In internal structure, oil-shale is
-minutely laminated, which is apparent in the “spent”
-shale after distillation, when it is thrown out in fragments,
-composed of extremely thin sheets like the
-leaves of a book.</p>
-
-<p>Before touching upon the methods employed in
-mining the shale and the treatment it receives during
-distillation, it is interesting to note that the industry in
-Scotland has passed through many vicissitudes since its
-establishment. At that time, the American oil industry
-was but in its infancy, and the production in the States
-was utilized mainly on the American markets. Consequently,
-there was a great demand for the Scottish oils
-in this country, and in 1870 there were no fewer than
-ninety small oil-works in the Lothians, the majority
-of which were operating the shales. It was about this
-time that the American illuminating oil came over to
-this country, and a very sorry blow was dealt the
-Scottish industry. So disastrous was the resulting
-competition between the Scottish products on the one
-hand, and the American and Russian petroleums on
-the other, that one by one the Scottish companies
-closed down, and, after less than eight years of competition,
-the number of operating companies had fallen
-to twenty-six. The decay continued until the number
-of active concerns in the Scottish shale-oil industry
-could be counted on one’s fingers.</p>
-
-<p>The industry exists to-day simply as a result of the
-great improvements which have been made in the
-retorting of the shale, by which larger quantities of
-products are produced&mdash;including ammonia. It is thus
-able to withstand foreign competition.
-<span class="pagenum" id="Page_136">136</span></p>
-
-<p>To-day, it is estimated that nearly 4,000,000 tons of
-the Scottish shales are treated every twelve months
-by the several operating oil companies. The most
-important of these concerns&mdash;the Pumpherston Oil
-Company&mdash;has been regularly operating since 1883, and,
-inasmuch as it deals with by far the largest quantities
-of shale treated, a brief account of its operations will
-be of advantage in enabling the reader to understand
-the methods by which a total of nearly 400,000 tons of
-oil are produced each year in Scotland.</p>
-
-<p>The operations of the Pumpherston Oil Company are
-upon a scale of considerable magnitude, for the Company’s
-works comprise the crude oil plant, the sulphate
-of ammonia plant, oil and wax refineries, etc. The
-Seafield and Deans works, 7 and 4 miles distant respectively,
-possess only crude-oil and sulphate-producing
-plants, the refining plants being confined to Pumpherston.
-The Company’s works cover 100 acres, while the shale
-fields extend over many thousands of acres in and
-around the district of Pumpherston.</p>
-
-<p>As has already been mentioned, the shale fields so
-far operated lie, in the main, in the Lothians, and, as
-one motors by road from Edinburgh to Glasgow, the
-shale country is passed through. Before the commercial
-development of a shale field, trial borings are
-sunk, now more generally by means of a diamond
-bore, for by its revolving action a solid core is obtained
-which readily shows the character and inclination of
-the strata passed through. When a seam of shale has
-been found by boring operations, and the exact
-position and depth of outcrop determined, it is necessary,
-before sinking a mine, to put down a trial shaft
-for the purpose of making sure as to the true gradient
-at which the shale is lying, and the thickness as well
-as the quality of the same.
-<span class="pagenum" id="Page_137">137</span></p>
-
-<p>In the shales in the Pumpherston district there are
-five distinct seams, dipping from 29 degrees to 38
-degrees, and the mine is driven in the middle seam,
-the other seams being entered by level cross-cut mines
-driven from one to another. Each of these seams
-is worked separately, the cross-cut shown in the sketch
-serving the purposes of communication and transit.
-In some cases, where the inclination of the shales is at
-a different angle, it is necessary to sink a vertical shaft,
-and this method is applied to the series known as the
-Mid-Calder.</p>
-
-<p>The usual dimensions of the inclined shaft are a width
-of from 10 to 12 feet, and the height is from 6 to 8 feet.
-If the sides of the shaft prove to be of a soft nature,
-as is generally the case with the shale at the crop,
-walls are run up and the roof is supported by larch
-crowns, but, where the shale is hard and the roof good,
-then the less costly method of timbering is adopted.</p>
-
-<p>The supports to the roof in many cases are fixed
-“centre” fashion, dividing the shaft into two unequal
-parts. The smaller division has generally a width of
-just over 3 feet, and is used for haulage ropes and water
-pipes, while the larger division is utilized for winding.
-During the progress of sinking, levels are broken away
-in the seam at regular distances, and driven so as to
-get communication with, and drive headings to form,
-the outer mine. These headings are driven in the same
-direction as the sinking mine to the levels above, until
-they connect with the outer mine or shaft. The outer
-mine is then used for winding the shale up to the
-surface, and the other is kept for sinking purposes,
-and by this means winding and sinking can go on
-simultaneously.</p>
-
-<div id="THE_PUMPHERSTON_OIL_SHALE_WORKS" class="figcenter">
-<img src="images/i_p138.jpg" alt="" />
-<p class="caption">GENERAL VIEW OF THE PUMPHERSTON WORKS</p>
-</div>
-
-<p>The seams of shale in the Midlothian fields vary
-generally from 4 to 10 feet in thickness, say 7 feet as
-<span class="pagenum" id="Page_138">138</span>
-<span class="pagenum" id="Page_139">139</span>
-an average, and, on the whole, they are comparatively
-free from ribs of unproductive rock. With a thickness
-of 7 feet, experience has shown that the method best
-adapted for the efficient working of the shale is “stoop
-and room,” but in the case of two seams of shale,
-separated by a bed of foreign material of sufficient
-thickness for packing, the long wall method proves the
-more suitable. The “stoop and room” method,
-however, is more generally used throughout the Scottish
-shale district than any other, its chief characteristics
-being the (1) “whole” or first working, and (2) the
-broken or second working. The whole working consists
-of a series of excavations made in the shale, whereby it
-is divided into rectangular blocks or pillars. These
-excavations are called rooms, one set being driven at
-right angles to the dip of the shale and at regular
-distances from one another, and commonly called
-“levels”; another set, driven to the rise of these levels
-and at right angles to them, being usually known as
-“ends” or “upsets.” The latter are broken off the
-levels at regular intervals and driven upwards to meet
-the levels above.</p>
-
-<p>The shale miner holes as far as he can reach&mdash;probably
-three or more feet&mdash;and brings down the shale by blasting,
-the process being repeated until he penetrates a
-distance of from 9 to 12 feet from the face at road-head.
-The shale, being loosened from its natural bed, is then
-placed in “hutches,” which are taken to the bottom
-of the shaft by either horse or chain haulage (much as
-with coal), and then the journey to the mouth is commenced.
-Before leaving the question of shale mining,
-it should be explained that the shale miner is subject to
-dangers much as his colleague in the coal-pit, but the
-volume of gases found in the shale seams is not so
-great as in the coal measures. These, however, are
-<span class="pagenum" id="Page_140">140</span>
-of an explosive nature, the most common being
-fire-damp.</p>
-
-<p>Once above ground, the shale is conveyed to breaking
-machines by endless wire-rope haulage. Passing through
-the machines, it is broken into suitable sizes for distillation,
-and drops into hopper-shaped hutches. These
-hutches have a capacity of about a ton, and each in
-turn is conveyed to the top of the retorts on an inclined
-scaffold by an endless chain. The shale then falls by
-the operation of a lever into a hopper or magazine
-communicating directly with the retorts, one hopper
-with a storage capacity of 24 hours’ supply of shale
-being connected to each retort of the Pumpherston
-Company.</p>
-
-<p>This Company’s retorts&mdash;they are patented&mdash;are in
-use at the various works of the Pumpherston Company,
-and are an interesting feature to visitors. The shale is
-fed by gravitation into cylindrical-shaped retorts, and
-built vertically in ovens of four, each oven having four
-chambers. The upper portion is of cast-iron, 11 feet
-long by 2 feet in diameter at the top, and slightly
-enlarged toward the bottom. Heat is applied externally
-from the incondensable gases obtained from the
-distillation of the shale, and this heat is made to circulate
-round the retort. In the case of the poorer qualities of
-the shale, however, the heat is assisted by producer-gas.
-The heating gas enters near the bottom portion of the
-retort, which is of fire-brick, along with a certain quantity
-of air, and a high temperature&mdash;from 1,200&deg;F. to
-1,600&deg;F.&mdash;is maintained, in this portion converting the
-nitrogen of the shale into ammonia, which is preserved
-by a continuous supply of steam delivered at a slight
-pressure at the bottom of the hopper.</p>
-
-<p>The oil gases are distilled from the shale in the cast-iron
-portion of the retort at a temperature of about
-<span class="pagenum" id="Page_141">141</span>
-900&deg; F., and, along with the ammonia gas, are drawn
-off by the exhausters through a branch pipe at the
-top of the retort, through the atmospheric condensers,
-from which the condensed liquid oil and water containing
-ammonia flow into a small separator tank. It is here
-that, owing to their different specific gravities&mdash;for one
-is lighter than the other&mdash;they assume different levels,
-and are thus drawn off into separate tanks. The gases
-then pass through ammonia scrubbers, in which they
-are washed for ammonia, and then through the naphtha
-scrubbers, where the lighter gases, which could not be
-caught in the atmospheric condensers, are washed with
-oil and a good quality of light oil or naphtha is recovered.
-The incondensable portion passing from these scrubbers
-is burned in the retorts as previously mentioned. With
-a shale of average yield, the retort can be heated by
-these incondensable gases from the distillation, and a
-surplus obtained for burning under steam boilers.</p>
-
-<p>What is doubtless a very unique feature of the
-Pumpherston retort is the mechanical arrangement for
-withdrawing the spent shale continuously, and thus
-keeping the whole mass inside the retorts in constant
-movement. Below each pair of retorts is fixed a hopper
-made of cast-iron, and fixed to girders supported on
-the brick piers or columns between the ovens. At the
-top of each hopper, and immediately underneath the
-bottom of the retorts, is fixed a cast-iron disc or table,
-with a space left between its edge and the sides of the
-hopper. The whole mass of shale in the retort rests
-upon the table, the space permitting some to pass over
-the edge. Through the centre of the table a steel
-spindle projects, on the upper end of which is fixed a
-curved arm, and this, when rotated, pushes some of the
-shale off, causing it to fall over the edge of the table
-into the hopper below. The shaft carrying the curved
-<span class="pagenum" id="Page_142">142</span>
-arm passes through a stuffing-box on the hopper, and
-has a ratchet and lever fitted to the lower end, actuated
-by a rod of T-iron which is made to travel horizontally,
-and is driven by a small electric motor. The motion
-is comparatively slow, the arm making but one revolution
-in about 20 minutes, but the action is most satisfactory,
-the through-put of shale being regulated at will.</p>
-
-<p>The ammonia water got from the atmospheric condensers
-is pumped through a heater, in which it is
-raised in temperature by the waste water flowing from
-the still, and passes into the top of the still, which is
-circular in shape, about 30 feet high, and has a series of
-cast-iron shelves or trays fixed horizontally every
-2 feet or thereabouts from the top to near the bottom.
-Steam is put into the bottom of the still at a pressure
-of 40 lb., and passes to the top through a series of
-conical arrangements on the shelves carrying with it
-the volatile ammonia, while the water, after traversing
-the whole area of each tray, passes out into a concrete
-tank containing a cast-iron worm, which is the heater
-already referred to, for the ammonia water on its way
-to the still. During its progress from the top to the
-bottom of the still, the water is diverted into a chamber
-containing milk of lime, setting free the fixed ammonia
-which cannot be got by steaming.</p>
-
-<p>The steam and ammonia gas liberated in the still
-pass over into a large lead-lined tub or saturator, and
-bubbles through holes in a lead worm placed round
-the circumference at the bottom of the vessel. Sulphuric
-acid is at the same time run into the saturator, and, at
-a certain temperature, sulphate of ammonia is formed.
-The sulphate falls into a well, formed in the centre of
-the bottom of the vessel, in which are placed two steam
-ejectors, and these blow it out along with some liquor.
-This mixture is delivered into hutches having perforated
-<span class="pagenum" id="Page_143">143</span>
-bottoms, through which the ammonia liquor drains off,
-the solid sulphate being left in the hutch. This is now
-run by an overhead railway to the drying or storage
-stalls, and from these it is packed up and dispatched
-to the market. The exhaust steam and waste gases
-from the saturator are passed into the retorts, and
-utilized for the formation of ammonia from the shale,
-while the spent water is pumped to the spent shale bing,
-and thoroughly filtered before being allowed to escape
-from the works.</p>
-
-<p>For dealing with the weak acid water recovered from
-the refinery, the Pumpherston plant consists of lead-lined
-tubs or crackers, into which a quantity of the
-acid water is run, and saturated with ammonia gas
-until it is near the salting point, when it gravitates into
-settling vessels in order to separate any tar carried over
-with the acid water. The clear liquid is then drawn
-into the saturator, where it is quickly converted into
-sulphate and blown out in the manner already
-described.</p>
-
-<p>So up to date is the whole of the system governing
-the treatment of the shales and the resulting products,
-that the pumping of water from the mines, the haulage
-of the shale to the refineries, as well as driving of
-machinery in the works, is performed by electric power,
-the exhaust steam from the engines driving the generators,
-as in the case of the sulphate of ammonia exhaust,
-being sent to the retorts for use in the production of
-ammonia.</p>
-
-<p>The process of refining the crude oil obtained from
-the shale into the various products is somewhat complicated
-and perplexing to those unassociated with the
-industry on account of the many distillations and
-treatments which have to be carried out before a good
-marketable article is produced. The following outline,
-<span class="pagenum" id="Page_144">144</span>
-however, will give a fair idea of the process adopted
-throughout Scotland.</p>
-
-<p>The crude oil is delivered at the refinery into large
-tanks, which are placed at a sufficient height to feed
-the stills by gravitation. The crude oil is allowed to
-settle for twelve or more hours at a temperature sufficiently
-high to separate any water that may have
-passed the test at the retorts, and after this water has
-been run off, the oil is fed into the centre boiler of a
-battery of oil boilers. The lightest fraction of the
-oil&mdash;ultimately motor spirit and illuminating oils&mdash;is
-distilled off the feeding boiler and condensed in a coil
-of cast-iron pipes immersed in water in a tank, cold
-water being continuously run into the tank, while
-heated water is run off. The boilers on each side of
-the feed vessel receive their oil by a pipe connecting
-with the bottom of the latter, and they also distil over
-the lighter portion of oil with which they have been fed,
-the heavier portions passing on to a third boiler, where
-the process of distillation is repeated.</p>
-
-<p>The oil now left is delivered into a cast-iron pot-still,
-in which it is ultimately distilled to dryness, the residue
-left in the still forming oil coke, which is valuable as a
-fuel on account of its high percentage of fixed carbon
-and low yield of ash. Steam is admitted to the still
-in large quantities at all distillations. The various
-stages of distillation are carried through in almost
-identically the same manner as that of crude oil, and,
-therefore, need not be described in detail.</p>
-
-<p>The treatment or washing of the oil to remove the
-impurities that cannot be eliminated by distillation,
-consists in stirring the oil by compressed air for a given
-time in an iron vessel, with a fixed quantity of sulphuric
-acid, allowing it to settle, and running off the heavy
-mixture of tar and acid which separates. The
-<span class="pagenum" id="Page_145">145</span>
-acid-treated oil is then run into another similar vessel,
-treated with a solution of caustic soda, settles, and the
-soda tar which separates is run off. The acid tars are
-steamed and washed, the resulting acid water being
-sent to the sulphate of ammonia house for the manufacture
-of sulphate of ammonia, whilst the tar is mixed
-with that from the soda treatments and burned under
-the stills as liquid oil. As there is more than sufficient
-of this tar to distil all the oil at the various stages,
-the distillation is carried out without cost for fuel,
-excepting that necessary for steam-raising purposes.</p>
-
-<p>A portion of the oil distilled at the second distillation,
-or green oil stage, is sent from the stills to the paraffin
-sheds to be cooled and the scale extracted, this eventually
-being made into paraffin wax. Stored in tanks until
-brought down to atmospheric temperature, the oil is
-pumped into the inner chamber of a cooler, which
-consists of a series of four vessels having inner and outer
-compartments. At the same time, anhydrous ammonia
-is forced into the outer compartment or jacket, and
-absorbs heat from the cooler, freezing the oil in the
-inner jacket into a pasty mixture of liquid oil and solid
-crystals of wax.</p>
-
-<p>This mixture is then pumped into filter-presses,
-where a portion of the oil flows away through the cloth,
-while the wax is left behind in solid cakes, still containing
-a quantity of oil. These cakes are delivered by conveyors
-to the back of the hydraulic presses, where they
-are wrapped in cloth and placed on shelves between
-iron frames in the presses, most of the remaining oils
-being thus squeezed out. The material obtained from
-the hydraulic presses is known to the trade as paraffin
-scale, and as it is discoloured by the small quantity of
-oil which cannot be removed by pressing, a process of
-sweating by steaming in large brick compartments is
-<span class="pagenum" id="Page_146">146</span>
-adopted, in order to remove the oil. The scale, consequent
-upon the removal of the oil therefrom, becomes
-whiter and of higher melting point, and after further
-treatment is finally passed through filter paper and run
-into moulding trays. When cooled, this product is
-known as paraffin wax, of which there are many grades.
-One cannot enter into the technical arrangements
-involved, for obvious reasons, the chief one of which is
-that these cannot interest the reader; but sufficient has
-already been written in this chapter to suggest to the
-reader the perfection which has now been reached in
-the treatment of the shales of the Midlothians.</p>
-
-<p>As to the future, it is full of promise. There is no
-doubt that for many years to come the full force of
-foreign competition, as it has existed in previous times,
-will not be felt. There is a free field for Scottish
-enterprise in connection with the distillation of its
-oil-bearing shales. Nor is the region for development
-limited to its present area. Reports point to the fact
-that much area of commercial ground exists, not only
-on the eastern side of Scotland, but also in the north
-and north-west, while it is already an open secret that
-those responsible for the conduct of Government
-operations are viewing with favour even the liquid
-extraction of oil from certain areas not far distant from
-the zone of the present operations. The Scottish
-shale-oil industry has, so far, managed to defy competition
-from abroad to an extent which is reflected in the
-balance sheets of the several operating companies,
-whose yearly dividends have been from 50 per cent.
-downward during recent years.</p>
-
-<p>One thing is certain, and that is, the Government is
-well aware that there are great possibilities associated
-with the shale-oil industry of Scotland, and it is not only
-watching developments with direct interest, but is
-<span class="pagenum" id="Page_147">147</span>
-doing all in its power to foster the industry, and by all
-means possible encourage the exploitation of areas so
-far not commercially developed. At some future date
-there is a great possibility that the present area for
-developments will be largely extended, and as this is
-written, there is much evidence forthcoming to suggest
-that this commercial development of new lands will
-not long be delayed.
-<span class="pagenum" id="Page_148">148</span></p>
-
-<h2 id="CHAPTER_XIII">CHAPTER XIII<br />
-
-<span class="medium">A FEW NOTABLE PETROLEUM ENTERPRISES</span></h2>
-
-<p>No brief survey of the petroleum industry would be
-complete were reference not made to a few of those
-remarkable commercial undertakings in various parts
-of the world whose interests are not only closely
-associated with it, but to whose energies has been due
-much of the expansion that has been witnessed in every
-direction during the past few decades. It is safe to
-assert that, had it not been that the petroleum industry
-has, in its various industrial and commercial aspects
-attracted the attention of some of the finest financial
-and business houses in the world, the wonderful progress
-which has been recorded would, for the most part, have
-been impossible.</p>
-
-<p>The first place must of necessity be given to that
-much maligned amalgamation of capital, the Standard
-Oil Company of New Jersey, which was formed as far
-back as 36 years ago by Mr. John D. Rockefeller and
-his associates for the primary purpose of developments
-in the petroleum industry of the United States. At
-that time, the petroleum production of America had
-become quite a factor in commerce, but it was, obviously,
-in want of a guiding hand which could not only place
-it upon a basis of solidity, but which would tend to
-remove much of that gambling element which had
-become almost part and parcel of all developments.
-The Company, at the head of which were several gentlemen
-who had already made themselves famous in the
-land of oil, launched out in several directions, and,
-through the numerous subsidiary concerns which it
-<span class="pagenum" id="Page_149">149</span>
-soon created, it owned very extensive oil-bearing
-properties in practically every oil-field of the States,
-while it built quite a network of pipe-lines for the
-conveyance of the oil from the fields to the refineries,
-and from the refineries to seaboard. It erected and
-equipped oil refineries, and, so as to provide the much-needed
-foreign markets for American petroleum products,
-it built its fleet of oil tankers; and, lastly, opened depots
-for the distribution of American petroleum products
-all the world over.</p>
-
-<p>At one time, the ultimate success of its vast operations
-was open to question, and many there were who predicted
-that one day it would ignominiously pass on to
-the list of oil failures. Indeed, it nearly came to this
-on one or two occasions, and it was only owing to the
-remarkable perseverance of those at the head of the
-Company’s affairs that prevented headlong disaster.
-The Standard Oil Company soon became an integral
-part of the petroleum industry of the United States,
-with which it grew up and steadily assumed a position
-of world-wide importance, though one which was not
-unassailable. Its ultimate success was the chief cause
-for the multiplication of its critics, and volumes have
-been written of its wrong-doings by writers whose
-knowledge of the petroleum industry was mostly based
-upon wilful ignorance of facts. Consequent upon a
-decision of the United States Supreme Court some
-seven years ago, which held that the Company was
-violating the Anti-Trust Law of 1890, the Standard had
-to rid itself of its various subsidiary companies (over
-thirty in number), but it still controls almost a similar
-number of concerns to-day which are actively engaged
-in the production of crude oil and natural gas. It also
-owns several of the largest refineries in the States, while
-its fleet of oil tankers will, when present building is
-<span class="pagenum" id="Page_150">150</span>
-completed, be considerably over 300,000 tonnage. Its
-capital is $100,000,000, and during the last twelve years
-it has paid in dividends over 400 per cent., in addition
-to an additional cash distribution of 40 per cent.</p>
-
-<p>The Standard Oil Company of New York is another
-immense concern which, with a capital of $75,000,000,
-has its headquarters in the Standard’s palatial building
-at 26 Broadway, New York, and interested principally
-in the refining industry, its facilities permitting of
-20,000 barrels of crude oil being treated daily. Another
-very prominent company is the Standard Oil Company
-of California, with its capital of $100,000,000. This
-Company not only produces its crude oil, but refines it,
-and engages in the export business. Its refinery at
-Point Richmond, California, is reported to be the
-largest in the world, for it can treat 65,000 barrels of
-crude oil daily. Its fleet of tankers and barges for the
-export trade is capable of carrying at one trip over
-100,000 tons of products, and, for the purposes of its
-land transport, it possesses pipe-lines over 1,000 miles
-long.</p>
-
-<p>The second place of importance in regard to the
-petroleum enterprises of international influence must
-be given to the “Shell” Transport and Trading
-Company, Ltd., whose headquarters are in London,
-with that well-known oil pioneer, Sir Marcus Samuel,
-Bart., as its Chairman. Formed just over twenty years
-ago for dealing primarily as a transporter of petroleum
-products in the Far East, the “Shell” has steadily
-and continuously extended the sphere of its operations,
-until the result of a carefully thought out policy is seen
-in its activities in almost every oil-field of the world.
-Just over ten years ago, the Company made an amalgamation
-with the Royal Dutch Petroleum Company,
-or, to give it its correct name, the Koninklijke
-<span class="pagenum" id="Page_151">151</span>
-Nederlandsche Maatschappij tot exploitatie van petroleum-bronnen
-in Nederlandsch Indie (whose capital is
-&pound;12,500,000), and by reason of so doing it materially
-increased its international position and importance.
-The “Shell”&mdash;Royal Dutch Combine to-day has a
-controlling interest in some of the largest operating
-companies in Russia, Roumania, California, Mexico,
-Venezuela, and other oil regions, one of its most recent
-extensions being in its advent into the petroleum
-industry of Trinidad. The “Shell” Company has a
-record for successful industrial expansion which is
-achieved by few companies in the world of commerce:
-its capital is now &pound;15,000,000, and in dividends it has
-distributed over 300 per cent. Among the “Shell”
-Company’s associated concerns, that of the Anglo-Saxon
-Petroleum Company, Ltd., which is responsible
-for the ocean transportation of the petroleum products
-of the Combine, takes first place, with its capital of
-&pound;8,000,000; while the Asiatic Petroleum Company, Ltd.
-(capital, &pound;2,000,000), ranks but second. The recent
-fusion of the interests of Lord Cowdray with those
-of the “Shell,” for the latter has acquired the control of
-the great Mexican interests associated with the Pearson
-company, is another instance of how the “Shell” Company
-has trod the road of progress and expansion.</p>
-
-<p>The sudden rise to fame of the oil-fields of Mexico
-gave birth to what may safely be referred to as one of
-the most enterprising amalgamations of capital in the
-long list of concerns associated with the petroleum
-industry, and it is gratifying to note that this enterprise
-was solely due to the well-known firm of Messrs. S.
-Pearson &amp; Sons. Lord Cowdray, as the head, was
-not slow to recognize the vast opportunities which
-awaited the development of the Mexican fields, and the
-formation of the Mexican Eagle Oil Company, in 1908,
-<span class="pagenum" id="Page_152">152</span>
-with a capital of now $60,000,000 (Mexican), or about
-&pound;6,125,000 sterling, was the initial result of his efforts.
-It was just about this time that the serious fuel oil era
-opened, both in this country and others, and it was
-evident that, for the purpose of adequately distributing
-the products of Mexican oil (and these include the
-whole range of refined oils, as well as fuel oil), there was
-room for the operations of a large and influential
-company. The Anglo-Mexican Petroleum Company,
-Ltd., was accordingly formed, with Lord Cowdray’s
-son (the Hon. B. C. Pearson) as Chairman, and a capital
-of &pound;2,000,000, to deal with the importation and distribution
-of Mexican petroleum products on the English
-market.</p>
-
-<p>As already stated, the control of this Company has
-now passed under the “Shell,” and its future expansion
-is assured, both at home and abroad.</p>
-
-<p>The Mexican products are transported from Mexico
-to this country, as well as many others, by the large
-fleet of Eagle oil tankers, the property of the Eagle Oil
-Transport Company, Ltd., which admirably managed
-concern of &pound;3,000,000 capital is also presided over by
-the Hon. B. C. Pearson. The Eagle Company possesses
-the largest oil tankers afloat, many of them carrying
-over 15,000 tons of bulk oil, though others to be built
-are to be considerably larger; an 18,000 ton tanker is,
-indeed, already in commission.</p>
-
-<p>Another highly important enterprise in the world of
-petroleum is that of the Burmah Oil Company, Ltd.,
-which, as its name suggests, is occupied with the
-petroleum industry in Burmah, and catering for the
-almost unlimited needs of the Far East in regard to
-refined petroleum products. It controls enormous acres
-of oil-bearing territory held under lease from the Burmah
-Government, possesses extensive refineries at Rangoon,
-<span class="pagenum" id="Page_153">153</span>
-and has quite a fleet of oil tankers. Its capital is
-three and a half millions sterling, and its consistent
-success may be judged from the fact that it has paid
-over 400 per cent. in dividends. Of comparatively
-recent date, the Burmah Oil Company has turned its
-attention to other fields, particularly to Trinidad, but
-it is in connection with the development and subsequent
-operations of the fields of Burmah that the Company
-is chiefly concerned.</p>
-
-<p>The Anglo-Persian Oil Company, Ltd., which is
-closely allied to the Burmah Oil Company (capital,
-&pound;6,000,000) by reason of its large interest therein, has
-come into prominence during recent years, owing mainly
-to its agreement with the British Government, in which
-the latter has invested over &pound;4,000,000 of the public
-moneys in the enterprise. The Company acquired its
-petroliferous concessions from several interests, including
-the Burmah Oil Company and the late Lord Strathcona,
-which had been granted to them by the Persian Government.
-When I mention that the Company’s concessions
-cover an area of, approximately, half a million square
-miles, and on which petroleum has been found in
-quantity on the majority of the small areas already
-examined, the significance of the enterprise will be
-somewhat appreciated. There is no doubt that the
-company’s success is doubly assured, and, from this
-point of view, the investment of the public moneys in
-the undertaking has been sound finance, especially
-when one considers the important part which petroleum
-products under British control must hereafter play.
-As a matter of fact, the proposition is a well-paying
-one to-day, and it is asserted that the Government’s
-interest is already worth no less than &pound;20,000,000. Persia
-as an oil-producing country will occupy a very prominent
-place. The Company has immense petroleum-producing
-<span class="pagenum" id="Page_154">154</span>
-fields: it has its pipe-line to seaboard, and its refineries,
-situate on the Persian Gulf. It has possibilities without
-end, and it is rapidly availing itself of them. The
-Company also now owns the entire capital of three
-formerly German-owned concerns in London&mdash;the
-British Petroleum Company, Ltd., the Homelight Oil
-Company, Ltd., and the Petroleum Steamship Company,
-Ltd. Consequent upon these acquisitions, the
-Anglo-Persian Company, Ltd., is making arrangements
-to enter the English market as distributors of Persian
-petroleum. The question of transport need not here
-be considered, for the Anglo-Persian Oil Company owns the
-entire capital of the British Tanker Co., Ltd. The Company
-thus has the producing and refining possibilities:
-<span class="pagenum" id="Page_155">155</span>
-the acquired concern of the Tanker Company,
-together with that of the Petroleum Steamship Co.,
-will suffice to bring its products to the English market,
-while the large distributing organizations of the British
-Petroleum Company and the Homelight Oil Company,
-owning depots all over the country, will offer easy
-facilities for the distribution of the petroleum products
-imported. My argument all along has been that the
-advent of the British Government into this enterprise&mdash;I
-will not call it a speculation, though at one time it
-looked like it&mdash;places all that private enterprise, which
-in the past has brought all the products of petroleum
-to our own doors at a reasonable and competitive price,
-at absolute discount. Ever since the petroleum industry
-assumed proportions of international magnitude, and
-we became more or less (I should have said more than
-less) dependent upon our necessities being met by
-petroleum and its products, private enterprise has
-always kept us well supplied. But the Anglo-Persian
-Oil Company has made immense headway since the
-Government took an interest in its operations, and its
-appearance on the English market as a refiner of
-Persian crude oil and a distributor of the products
-thereof, is but a reflection of the prolific nature of the
-vast fields in Persia which it possesses. It has decided
-upon having its first English oil refinery near Swansea,
-and it is reported that this will be in operation before
-the end of 1920. It has also secured the control of
-the Scottish shale oil refineries which will be used for
-the treatment of Persian crude oil when occasion
-warrants.</p>
-
-<div id="SOME_BURMAH_PRODUCERS" class="figcenter">
-<img src="images/i_p154.jpg" alt="" />
-<p class="caption">A FEW OF THE BURMAH COMPANY’S PROLIFIC
-PRODUCERS</p>
-</div>
-
-<p>One might go on to interminable length in briefly
-referring to the great concerns whose operations have
-been responsible for the expansion of the world’s
-petroleum industry to its present magnitude, but the
-<span class="pagenum" id="Page_156">156</span>
-exigencies of space prevent this. The brief list of
-companies already referred to represents an amalgamation
-of capital to the extent of nearly &pound;120,000,000
-sterling, though this cannot be considered as representing
-more than one-half the total world’s investments
-in petroleum enterprises.</p>
-
-<p>So far, I have not touched with the magnitude of
-the petroleum companies operating in the distributing
-oil trade of England, though, to some extent, this may
-be gathered from the references to such companies as
-the “Shell,” the Anglo-Mexican Petroleum Company,
-etc.</p>
-
-<p>Practically the first company of any magnitude to
-distribute petroleum products in this country was the
-Anglo-American Oil Co., Ltd., which has actively
-engaged in this branch of commerce for the past thirty
-years. It imported and dealt in American oils long
-before the advent of the companies before mentioned,
-and, to-day, is certainly one of the largest&mdash;if not the
-largest&mdash;company so engaged. Its name is known in
-every hamlet in the country: its tank cars are seen on
-every railway, and its depots are to be found in every
-centre throughout the length and breadth of the land.
-Its name is legion. Its capital is &pound;3,000,000, and it is
-to the Anglo-American Oil Company that, throughout
-the clatter of European War, the credit is due for having
-supplied us with those almost unlimited quantities of
-petroleum products so necessary both on sea and land,
-for it is the largest importer in the Kingdom. As its
-name implies, the “Anglo” deals mostly in American
-petroleum products: it was at one time the importing
-concern of the Standard Oil Company, but to-day it
-purchases broadcast in an endeavour&mdash;and a very
-successful one, too&mdash;to supply the British consumer with
-all the petroleum products he requires.
-<span class="pagenum" id="Page_157">157</span></p>
-
-<p>The present chapter deals, I feel, most inadequately
-with the general question of concerns whose interests
-are directly allied with that of petroleum; in fact, it
-was not my desire to give an encyclopaedia of the
-thousands of companies so engaged, but, rather, to
-suggest the names of a few which have secured world-wide
-distinction.
-<span class="pagenum" id="Page_158">158</span></p>
-
-<h2 id="CHAPTER_XIV">CHAPTER XIV<br />
-
-<span class="medium">STATISTICAL</span></h2>
-
-<h3><span class="smcap">The World’s Output of Petroleum</span></h3>
-
-<p>The world’s total production of crude oil for 1917, and
-for the period of years 1857 to 1917, is given in the
-following table. The details are given in barrels, which,
-divided by seven, will give the output in tons.</p>
-
-<table>
-  <tr>
-    <th></th>
-    <th colspan="2"><span class="smcap">Production.</span><br />1917.</th>
-    <th colspan="2"><span class="smcap">Total Production.</span><br />1857-1917.</th>
-  </tr>
-  <tr>
-    <th></th>
-    <th><i>Barrels of<br />42 Gallons</i></th>
-    <th><i>P.C. of<br />Total.</i></th>
-    <th><i>Barrels of<br />42 Gallons</i></th>
-    <th><i>P.C. of<br />Total.</i></th>
-  </tr>
-  <tr>
-    <td colspan="5"><span class="smcap">Country.</span></td>
-  </tr>
-  <tr>
-    <td>United States</td>
-    <td class="tdr">*335,315,601</td>
-    <td class="tdr">66&middot;98</td>
-    <td class="tdr">4,252,644,003</td>
-    <td class="tdr">60&middot;89</td>
-  </tr>
-  <tr>
-    <td>Russia</td>
-    <td class="tdr">#69,000,000</td>
-    <td class="tdr">13&middot;78</td>
-    <td class="tdr">1,832,583,017</td>
-    <td class="tdr">26&middot;24</td>
-  </tr>
-  <tr>
-    <td>Mexico</td>
-    <td class="tdr">55,292,770</td>
-    <td class="tdr">11&middot;04</td>
-    <td class="tdr">222,082,472</td>
-    <td class="tdr">3&middot;18</td>
-  </tr>
-  <tr>
-    <td>Dutch East Indies</td>
-    <td class="tdr">&para;12,928,955</td>
-    <td class="tdr">2&middot;58</td>
-    <td class="tdr">175,103,267</td>
-    <td class="tdr">2&middot;51</td>
-  </tr>
-  <tr>
-    <td>India</td>
-    <td class="tdr">#8,500,000</td>
-    <td class="tdr">1&middot;70</td>
-    <td class="tdr">98,583,522</td>
-    <td class="tdr">2&middot;41</td>
-  </tr>
-  <tr>
-    <td>Galicia</td>
-    <td class="tdr">5,965,447</td>
-    <td class="tdr">1&middot;19</td>
-    <td class="tdr">148,459,653</td>
-    <td class="tdr">2&middot;13</td>
-  </tr>
-  <tr>
-    <td>Japan and Formosa</td>
-    <td class="tdr">2,898,654</td>
-    <td class="tdr">0&middot;58</td>
-    <td class="tdr">36,065,454</td>
-    <td class="tdr">0&middot;52</td>
-  </tr>
-  <tr>
-    <td>Roumania</td>
-    <td class="tdr">2,681,870</td>
-    <td class="tdr">0&middot;54</td>
-    <td class="tdr">142,992,465</td>
-    <td class="tdr">2&middot;05</td>
-  </tr>
-  <tr>
-    <td>Peru</td>
-    <td class="tdr">2,533,417</td>
-    <td class="tdr">0&middot;51</td>
-    <td class="tdr">21,878,285</td>
-    <td class="tdr">0&middot;31</td>
-  </tr>
-  <tr>
-    <td>Trinidad</td>
-    <td class="tdr">1,599,455</td>
-    <td class="tdr">0&middot;32</td>
-    <td class="tdr">5,418,885</td>
-    <td class="tdr">0&middot;08</td>
-  </tr>
-  <tr>
-    <td>Argentina</td>
-    <td class="tdr">1,144,737</td>
-    <td class="tdr">0&middot;23</td>
-    <td class="tdr">3,047,858</td>
-    <td class="tdr">0&middot;04</td>
-  </tr>
-  <tr>
-    <td>Egypt</td>
-    <td class="tdr">1,008,750</td>
-    <td class="tdr">0&middot;20</td>
-    <td class="tdr">2,768,686</td>
-    <td class="tdr">0&middot;04</td>
-  </tr>
-  <tr>
-    <td>Germany</td>
-    <td class="tdr">995,764</td>
-    <td class="tdr">0&middot;20</td>
-    <td class="tdr">15,952,861</td>
-    <td class="tdr">2&middot;30</td>
-  </tr>
-  <tr>
-    <td>Canada</td>
-    <td class="tdr">205,332</td>
-    <td class="tdr">0&middot;04</td>
-    <td class="tdr">24,112,529</td>
-    <td class="tdr">3&middot;50</td>
-  </tr>
-  <tr>
-    <td>Italy</td>
-    <td class="tdr">50,334}</td>
-    <td class="tdr" rowspan="2">0&middot;11</td>
-    <td class="tdr">947,289</td>
-    <td class="tdr">0&middot;01</td>
-  </tr>
-  <tr>
-    <td>Other countries</td>
-    <td class="tdr">#&sect;530,000}</td>
-    <td class="tdr">927,000</td>
-    <td class="tdr">0&middot;01</td>
-  </tr>
-  <tr>
-    <td class="i4">Total</td>
-    <td class="tdr bb bt">500,651,086l</td>
-    <td class="tdr bb bt">100&middot;00l</td>
-    <td class="tdr bb bt">6,983,567,246l</td>
-    <td class="tdr bb bt">100&middot;00</td>
-  </tr>
-</table>
-
-<p class="table">
-* Quantity marketed.<br />
-# Estimated.<br />
-&para; Includes British Borneo.<br />
-#&sect; Includes 19,167 barrels produced in Cuba.<br />
-<span class="pagenum" id="Page_159">159</span></p>
-
-<h3><span class="smcap">The Petroleum Import Trade of the United Kingdom</span></h3>
-
-<p>The imports of petroleum products into the United Kingdom for the past seven years are given
-in the following table. Those for 1917 are only approximate quantities inasmuch as, toward the
-end of the year, the Custom House authorities decided for the time being not to compile such
-statistics for general use. The figures in every case are given in gallons&mdash;</p>
-
-<table class="bbox">
-  <tr>
-    <th class="smcap">Oils.</th>
-    <th>1912.</th>
-    <th>1913.</th>
-  </tr>
-  <tr>
-    <td>Petroleum (Crude)</td>
-    <td class="tdr">12,742</td>
-    <td class="tdr">1,108,900</td>
-  </tr>
-  <tr>
-    <td>Petroleum (lamp)</td>
-    <td class="tdr">146,030,093</td>
-    <td class="tdr">157,141,241</td>
-  </tr>
-  <tr>
-    <td>Petroleum (lubricating)</td>
-    <td class="tdr">69,327,061</td>
-    <td class="tdr">67,962,493</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Gas Oil)</td>
-    <td class="tdr">73,273,526</td>
-    <td class="tdr">65,949,677</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Fuel Oil)</td>
-    <td class="tdr">48,135,845</td>
-    <td class="tdr">95,062,187</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Other prdcts)</td>
-    <td class="tdr">963,856</td>
-    <td class="tdr">24,178</td>
-  </tr>
-  <tr>
-    <td>Motor Spirit</td>
-    <td class="tdr">79,590,155</td>
-    <td class="tdr">100,858,017</td>
-  </tr>
-  <tr>
-    <th class="smcap">Oils.</th>
-    <th>1914.</th>
-    <th>1915.</th>
-  </tr>
-  <tr>
-    <td>Petroleum (Crude)</td>
-    <td class="tdr">15,105,588</td>
-    <td class="tdr">&mdash;&mdash;</td>
-  </tr>
-  <tr>
-    <td>Petroleum (lamp)</td>
-    <td class="tdr">150,131,233</td>
-    <td class="tdr">141,424,353</td>
-  </tr>
-  <tr>
-    <td>Petroleum (lubricating)</td>
-    <td class="tdr">66,646,512</td>
-    <td class="tdr">69,974,170</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Gas Oil)</td>
-    <td class="tdr">83,105,346</td>
-    <td class="tdr">88,089,202</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Fuel Oil)</td>
-    <td class="tdr">212,675,855</td>
-    <td class="tdr">27,288,850</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Other prdcts)</td>
-    <td class="tdr">17,942</td>
-    <td class="tdr">705,353</td>
-  </tr>
-  <tr>
-    <td>Motor Spirit</td>
-    <td class="tdr">119,030,155</td>
-    <td class="tdr">146,334,702</td>
-  </tr>
-  <tr>
-    <th class="smcap">Oils.</th>
-    <th>1916.</th>
-    <th>1917.</th>
-  </tr>
-  <tr>
-    <td>Petroleum (Crude)</td>
-    <td class="tdr">&mdash;&mdash;</td>
-    <td class="tdr">&mdash;&mdash;</td>
-  </tr>
-  <tr>
-    <td>Petroleum (lamp)</td>
-    <td class="tdr">126,840,494</td>
-    <td class="tdr">127,958,665</td>
-  </tr>
-  <tr>
-    <td>Petroleum (lubricating)</td>
-    <td class="tdr">80,443,694</td>
-    <td class="tdr">87,779,737</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Gas Oil)</td>
-    <td class="tdr">57,160,493</td>
-    <td class="tdr">31,303,820</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Fuel Oil)</td>
-    <td class="tdr">22,646,669</td>
-    <td class="tdr">440,582,168</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Other prdcts)</td>
-    <td class="tdr">1,728,092</td>
-    <td class="tdr">&mdash;&mdash;</td>
-  </tr>
-  <tr>
-    <td>Motor Spirit</td>
-    <td class="tdr">163,965,834</td>
-    <td class="tdr">139,270,181</td>
-  </tr>
-  <tr>
-    <th class="smcap">Oils.</th>
-    <th>1918.</th>
-    <th>1919.</th>
-  </tr>
-  <tr>
-    <td>Petroleum (Crude)</td>
-    <td class="tdr">&mdash;&mdash;</td>
-    <td class="tdr">7,577,549</td>
-  </tr>
-  <tr>
-    <td>Petroleum (lamp)</td>
-    <td class="tdr">148,021,234</td>
-    <td class="tdr">153,371,858</td>
-  </tr>
-  <tr>
-    <td>Petroleum (lubricating)</td>
-    <td class="tdr">102,273,841</td>
-    <td class="tdr">65,832,998</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Gas Oil)</td>
-    <td class="tdr">38,835,460</td>
-    <td class="tdr">30,033,002</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Fuel Oil)</td>
-    <td class="tdr">842,405,536</td>
-    <td class="tdr">265,405,203</td>
-  </tr>
-  <tr>
-    <td>Petroleum (Other prdcts)</td>
-    <td class="tdr">&mdash;&mdash;</td>
-    <td class="tdr">&mdash;&mdash;</td>
-  </tr>
-  <tr>
-    <td>Motor Spirit</td>
-    <td class="tdr">192,959,054</td>
-    <td class="tdr">200,332,648</td>
-  </tr>
-</table>
-<p><span class="pagenum" id="Page_160">160</span></p>
-
-<h3><span class="smcap">America’s Crude Oil Production During
-the Past Fifty Years</span></h3>
-
-<p>The output of crude petroleum in the oil-fields of
-America during the past fifty years has been as under,
-the figures being given in barrels of 42 gallons (usually
-reckoned at seven to the ton)&mdash;</p>
-
-<table>
-  <tr>
-    <th><i>Year.</i></th>
-    <th><i>Barrels.</i></th>
-  </tr>
-  <tr>
-    <td>1869</td>
-    <td class="tdr">4,215,000</td>
-  </tr>
-  <tr>
-    <td>1870</td>
-    <td class="tdr">5,260,745</td>
-  </tr>
-  <tr>
-    <td>1871</td>
-    <td class="tdr">5,205,234</td>
-  </tr>
-  <tr>
-    <td>1872</td>
-    <td class="tdr">6,293,194</td>
-  </tr>
-  <tr>
-    <td>1873</td>
-    <td class="tdr">9,893,786</td>
-  </tr>
-  <tr>
-    <td>1874</td>
-    <td class="tdr">10,926,945</td>
-  </tr>
-  <tr>
-    <td>1875</td>
-    <td class="tdr">8,787,514</td>
-  </tr>
-  <tr>
-    <td>1876</td>
-    <td class="tdr">9,132,669</td>
-  </tr>
-  <tr>
-    <td>1877</td>
-    <td class="tdr">13,350,363</td>
-  </tr>
-  <tr>
-    <td>1878</td>
-    <td class="tdr">15,396,868</td>
-  </tr>
-  <tr>
-    <td>1879</td>
-    <td class="tdr">19,914,146</td>
-  </tr>
-  <tr>
-    <td>1880</td>
-    <td class="tdr">26,286,123</td>
-  </tr>
-  <tr>
-    <td>1881</td>
-    <td class="tdr">27,661,238</td>
-  </tr>
-  <tr>
-    <td>1882</td>
-    <td class="tdr">30,349,897</td>
-  </tr>
-  <tr>
-    <td>1883</td>
-    <td class="tdr">23,449,633</td>
-  </tr>
-  <tr>
-    <td>1884</td>
-    <td class="tdr">24,218,438</td>
-  </tr>
-  <tr>
-    <td>1885</td>
-    <td class="tdr">21,858,785</td>
-  </tr>
-  <tr>
-    <td>1886</td>
-    <td class="tdr">28,064,841</td>
-  </tr>
-  <tr>
-    <td>1887</td>
-    <td class="tdr">28,283,483</td>
-  </tr>
-  <tr>
-    <td>1888</td>
-    <td class="tdr">27,612,025</td>
-  </tr>
-  <tr>
-    <td>1889</td>
-    <td class="tdr">35,163,513</td>
-  </tr>
-  <tr>
-    <td>1890</td>
-    <td class="tdr">45,823,572</td>
-  </tr>
-  <tr>
-    <td>1891</td>
-    <td class="tdr">54,292,655</td>
-  </tr>
-  <tr>
-    <td>1892</td>
-    <td class="tdr">50,514,657</td>
-  </tr>
-  <tr>
-    <td>1893</td>
-    <td class="tdr">48,431,066</td>
-  </tr>
-  <tr>
-    <td>1894</td>
-    <td class="tdr">49,344,516</td>
-  </tr>
-  <tr>
-    <td>1895</td>
-    <td class="tdr">52,892,276</td>
-  </tr>
-  <tr>
-    <td>1896</td>
-    <td class="tdr">60,960,361</td>
-  </tr>
-  <tr>
-    <td>1897</td>
-    <td class="tdr">60,475,516</td>
-  </tr>
-  <tr>
-    <td>1898</td>
-    <td class="tdr">55,364,233</td>
-  </tr>
-  <tr>
-    <td>1899</td>
-    <td class="tdr">57,070,850</td>
-  </tr>
-  <tr>
-    <td>1900</td>
-    <td class="tdr">63,620,529</td>
-  </tr>
-  <tr>
-    <td>1901</td>
-    <td class="tdr">69,389,194</td>
-  </tr>
-  <tr>
-    <td>1902</td>
-    <td class="tdr">88,766,916</td>
-  </tr>
-  <tr>
-    <td>1903</td>
-    <td class="tdr">100,461,337</td>
-  </tr>
-  <tr>
-    <td>1904</td>
-    <td class="tdr">117,080,960</td>
-  </tr>
-  <tr>
-    <td>1905</td>
-    <td class="tdr">134,717,580</td>
-  </tr>
-  <tr>
-    <td>1906</td>
-    <td class="tdr">126,493,936</td>
-  </tr>
-  <tr>
-    <td>1907</td>
-    <td class="tdr">166,095,335</td>
-  </tr>
-  <tr>
-    <td>1908</td>
-    <td class="tdr">178,527,355</td>
-  </tr>
-  <tr>
-    <td>1909</td>
-    <td class="tdr">183,170,874</td>
-  </tr>
-  <tr>
-    <td>1910</td>
-    <td class="tdr">209,557,248</td>
-  </tr>
-  <tr>
-    <td>1911</td>
-    <td class="tdr">220,449,391</td>
-  </tr>
-  <tr>
-    <td>1912</td>
-    <td class="tdr">222,935,044</td>
-  </tr>
-  <tr>
-    <td>1913</td>
-    <td class="tdr">248,446,230</td>
-  </tr>
-  <tr>
-    <td>1914</td>
-    <td class="tdr">265,762,535</td>
-  </tr>
-  <tr>
-    <td>1915</td>
-    <td class="tdr">281,104,104</td>
-  </tr>
-  <tr>
-    <td>1916</td>
-    <td class="tdr">300,767,158</td>
-  </tr>
-  <tr>
-    <td>1917</td>
-    <td class="tdr">335,315,601</td>
-  </tr>
-  <tr>
-    <td>1918</td>
-    <td class="tdr">360,000,000</td>
-  </tr>
-</table>
-
-<h3><span class="smcap">Roumania’s Crude Oil Production During
-the Past Fifty Years</span></h3>
-
-<p>Roumania’s crude oil production for the past fifty
-years is given in the following table in barrels of 42
-gallons (seven to the ton). The officially recorded
-output goes back as far as 1857, when the twelve
-months’ yield was just under 2,000 barrels. During
-1861, the production passed the 10,000 barrel mark for
-<span class="pagenum" id="Page_161">161</span>
-the first time, and six years later reached 50,000 barrels
-for the year. The figures are as under&mdash;</p>
-
-<table>
-  <tr>
-    <th><i>Year.</i></th>
-    <th><i>Barrels.</i></th>
-  </tr>
-  <tr>
-    <td>1868</td>
-    <td class="tdr">55,369</td>
-  </tr>
-  <tr>
-    <td>1869</td>
-    <td class="tdr">58,533</td>
-  </tr>
-  <tr>
-    <td>1870</td>
-    <td class="tdr">83,765</td>
-  </tr>
-  <tr>
-    <td>1871</td>
-    <td class="tdr">90,030</td>
-  </tr>
-  <tr>
-    <td>1872</td>
-    <td class="tdr">91,251</td>
-  </tr>
-  <tr>
-    <td>1873</td>
-    <td class="tdr">104,036</td>
-  </tr>
-  <tr>
-    <td>1874</td>
-    <td class="tdr">103,177</td>
-  </tr>
-  <tr>
-    <td>1875</td>
-    <td class="tdr">108,569</td>
-  </tr>
-  <tr>
-    <td>1876</td>
-    <td class="tdr">111,314</td>
-  </tr>
-  <tr>
-    <td>1877</td>
-    <td class="tdr">108,599</td>
-  </tr>
-  <tr>
-    <td>1878</td>
-    <td class="tdr">109,300</td>
-  </tr>
-  <tr>
-    <td>1879</td>
-    <td class="tdr">110,007</td>
-  </tr>
-  <tr>
-    <td>1880</td>
-    <td class="tdr">114,321</td>
-  </tr>
-  <tr>
-    <td>1881</td>
-    <td class="tdr">121,511</td>
-  </tr>
-  <tr>
-    <td>1882</td>
-    <td class="tdr">136,610</td>
-  </tr>
-  <tr>
-    <td>1883</td>
-    <td class="tdr">139,486</td>
-  </tr>
-  <tr>
-    <td>1884</td>
-    <td class="tdr">210,667</td>
-  </tr>
-  <tr>
-    <td>1885</td>
-    <td class="tdr">193,411</td>
-  </tr>
-  <tr>
-    <td>1886</td>
-    <td class="tdr">168,606</td>
-  </tr>
-  <tr>
-    <td>1887</td>
-    <td class="tdr">181,907</td>
-  </tr>
-  <tr>
-    <td>1888</td>
-    <td class="tdr">218,576</td>
-  </tr>
-  <tr>
-    <td>1889</td>
-    <td class="tdr">297,666</td>
-  </tr>
-  <tr>
-    <td>1890</td>
-    <td class="tdr">383,227</td>
-  </tr>
-  <tr>
-    <td>1891</td>
-    <td class="tdr">488,201</td>
-  </tr>
-  <tr>
-    <td>1892</td>
-    <td class="tdr">593,175</td>
-  </tr>
-  <tr>
-    <td>1893</td>
-    <td class="tdr">535,655</td>
-  </tr>
-  <tr>
-    <td>1894</td>
-    <td class="tdr">507,255</td>
-  </tr>
-  <tr>
-    <td>1895</td>
-    <td class="tdr">575,200</td>
-  </tr>
-  <tr>
-    <td>1896</td>
-    <td class="tdr">543,348</td>
-  </tr>
-  <tr>
-    <td>1897</td>
-    <td class="tdr">570,886</td>
-  </tr>
-  <tr>
-    <td>1898</td>
-    <td class="tdr">776,238</td>
-  </tr>
-  <tr>
-    <td>1899</td>
-    <td class="tdr">1,425,777</td>
-  </tr>
-  <tr>
-    <td>1900</td>
-    <td class="tdr">1,628,535</td>
-  </tr>
-  <tr>
-    <td>1901</td>
-    <td class="tdr">1,678,320</td>
-  </tr>
-  <tr>
-    <td>1902</td>
-    <td class="tdr">2,059,935</td>
-  </tr>
-  <tr>
-    <td>1903</td>
-    <td class="tdr">2,763,117</td>
-  </tr>
-  <tr>
-    <td>1904</td>
-    <td class="tdr">3,599,026</td>
-  </tr>
-  <tr>
-    <td>1905</td>
-    <td class="tdr">4,420,987</td>
-  </tr>
-  <tr>
-    <td>1906</td>
-    <td class="tdr">6,378,184</td>
-  </tr>
-  <tr>
-    <td>1907</td>
-    <td class="tdr">8,118,207</td>
-  </tr>
-  <tr>
-    <td>1908</td>
-    <td class="tdr">8,252,157</td>
-  </tr>
-  <tr>
-    <td>1909</td>
-    <td class="tdr">9,327,278</td>
-  </tr>
-  <tr>
-    <td>1910</td>
-    <td class="tdr">9,723,806</td>
-  </tr>
-  <tr>
-    <td>1911</td>
-    <td class="tdr">11,107,450</td>
-  </tr>
-  <tr>
-    <td>1912</td>
-    <td class="tdr">12,976,232</td>
-  </tr>
-  <tr>
-    <td>1913</td>
-    <td class="tdr">13,554,768</td>
-  </tr>
-  <tr>
-    <td>1914</td>
-    <td class="tdr">12,826,578</td>
-  </tr>
-  <tr>
-    <td>1915</td>
-    <td class="tdr">12,029,913</td>
-  </tr>
-  <tr>
-    <td>1916</td>
-    <td class="tdr">10,298,208</td>
-  </tr>
-  <tr>
-    <td>1917</td>
-    <td class="tdr">2,681,870</td>
-  </tr>
-</table>
-
-<h3><span class="smcap">Mexico’s Remarkable Progress in Crude
-Oil Production</span></h3>
-
-<p>Fourteen years ago, the crude petroleum production
-in the oil-fields of Mexico was officially recorded for
-the first time. Its remarkable progress since that time
-will be seen from the following table, the figures being
-in barrels of 42 gallons&mdash;</p>
-
-<table>
-  <tr>
-    <th><i>Year.</i></th>
-    <th><i>Barrels.</i></th>
-  </tr>
-  <tr>
-    <td>1904</td>
-    <td class="tdr">220,653</td>
-  </tr>
-  <tr>
-    <td>1905</td>
-    <td class="tdr">320,379</td>
-  </tr>
-  <tr>
-    <td>1906</td>
-    <td class="tdr">1,097,264</td>
-  </tr>
-  <tr>
-    <td>1907</td>
-    <td class="tdr">1,717,690</td>
-  </tr>
-  <tr>
-    <td>1908</td>
-    <td class="tdr">3,481,610</td>
-  </tr>
-  <tr>
-    <td>1909</td>
-    <td class="tdr">2,488,742</td>
-  </tr>
-  <tr>
-    <td>1910</td>
-    <td class="tdr">3,332,807</td>
-  </tr>
-  <tr>
-    <td>1911</td>
-    <td class="tdr">14,051,643</td>
-  </tr>
-  <tr>
-    <td>1912</td>
-    <td class="tdr">16,558,215</td>
-  </tr>
-  <tr>
-    <td>1913</td>
-    <td class="tdr">25,902,439</td>
-  </tr>
-  <tr>
-    <td>1914</td>
-    <td class="tdr">21,188,427</td>
-  </tr>
-  <tr>
-    <td>1915</td>
-    <td class="tdr">32,910,508</td>
-  </tr>
-  <tr>
-    <td>1916</td>
-    <td class="tdr">39,817,402</td>
-  </tr>
-  <tr>
-    <td>1917</td>
-    <td class="tdr">55,292,770</td>
-  </tr>
-  <tr>
-    <td>1918</td>
-    <td class="tdr">64,605,422</td>
-  </tr>
-</table>
-<p><span class="pagenum" id="Page_162">162</span></p>
-
-<h3><span class="smcap">Galician Crude Oil Production</span></h3>
-
-<p>The output of crude petroleum in the Galician fields
-during the past thirty years is given herewith&mdash;</p>
-
-<table>
-  <tr>
-    <th><i>Year.</i></th>
-    <th><i>Barrels.</i></th>
-  </tr>
-  <tr>
-    <td>1888</td>
-    <td class="tdr">466,537</td>
-  </tr>
-  <tr>
-    <td>1889</td>
-    <td class="tdr">515,268</td>
-  </tr>
-  <tr>
-    <td>1890</td>
-    <td class="tdr">659,012</td>
-  </tr>
-  <tr>
-    <td>1891</td>
-    <td class="tdr">630,730</td>
-  </tr>
-  <tr>
-    <td>1892</td>
-    <td class="tdr">646,220</td>
-  </tr>
-  <tr>
-    <td>1893</td>
-    <td class="tdr">692,669</td>
-  </tr>
-  <tr>
-    <td>1894</td>
-    <td class="tdr">949,146</td>
-  </tr>
-  <tr>
-    <td>1895</td>
-    <td class="tdr">1,452,999</td>
-  </tr>
-  <tr>
-    <td>1896</td>
-    <td class="tdr">2,443,080</td>
-  </tr>
-  <tr>
-    <td>1897</td>
-    <td class="tdr">2,226,368</td>
-  </tr>
-  <tr>
-    <td>1898</td>
-    <td class="tdr">2,376,108</td>
-  </tr>
-  <tr>
-    <td>1899</td>
-    <td class="tdr">2,313,047</td>
-  </tr>
-  <tr>
-    <td>1900</td>
-    <td class="tdr">2,346,505</td>
-  </tr>
-  <tr>
-    <td>1901</td>
-    <td class="tdr">3,251,544</td>
-  </tr>
-  <tr>
-    <td>1902</td>
-    <td class="tdr">4,142,159</td>
-  </tr>
-  <tr>
-    <td>1903</td>
-    <td class="tdr">5,234,475</td>
-  </tr>
-  <tr>
-    <td>1904</td>
-    <td class="tdr">5,947,383</td>
-  </tr>
-  <tr>
-    <td>1905</td>
-    <td class="tdr">5,765,317</td>
-  </tr>
-  <tr>
-    <td>1906</td>
-    <td class="tdr">5,467,967</td>
-  </tr>
-  <tr>
-    <td>1907</td>
-    <td class="tdr">8,455,841</td>
-  </tr>
-  <tr>
-    <td>1908</td>
-    <td class="tdr">12,612,295</td>
-  </tr>
-  <tr>
-    <td>1909</td>
-    <td class="tdr">14,932,799</td>
-  </tr>
-  <tr>
-    <td>1910</td>
-    <td class="tdr">12,673,688</td>
-  </tr>
-  <tr>
-    <td>1911</td>
-    <td class="tdr">10,519,270</td>
-  </tr>
-  <tr>
-    <td>1912</td>
-    <td class="tdr">8,535,174</td>
-  </tr>
-  <tr>
-    <td>1913</td>
-    <td class="tdr">7,818,130</td>
-  </tr>
-  <tr>
-    <td>1914</td>
-    <td class="tdr">5,033,350</td>
-  </tr>
-  <tr>
-    <td>1915</td>
-    <td class="tdr">4,158,899</td>
-  </tr>
-  <tr>
-    <td>1916</td>
-    <td class="tdr">6,461,706</td>
-  </tr>
-  <tr>
-    <td>1917</td>
-    <td class="tdr">5,965,447</td>
-  </tr>
-  <tr>
-    <td>1918</td>
-    <td class="tdr">4,341,050</td>
-  </tr>
-</table>
-
-<h3><span class="smcap">Germany’s Crude Oil Production</span></h3>
-
-<p>Official figures were first recorded of Germany’s crude
-oil production in 1880, when the total output for the
-twelve months was about 9,000 barrels. For the past
-thirty years, the yearly output has been as under&mdash;</p>
-
-<table>
-  <tr>
-    <th><i>Year.</i></th>
-    <th><i>Barrels.</i></th>
-  </tr>
-  <tr>
-    <td>1888</td>
-    <td class="tdr">84,782</td>
-  </tr>
-  <tr>
-    <td>1889</td>
-    <td class="tdr">68,217</td>
-  </tr>
-  <tr>
-    <td>1890</td>
-    <td class="tdr">108,296</td>
-  </tr>
-  <tr>
-    <td>1891</td>
-    <td class="tdr">108,929</td>
-  </tr>
-  <tr>
-    <td>1892</td>
-    <td class="tdr">101,404</td>
-  </tr>
-  <tr>
-    <td>1893</td>
-    <td class="tdr">99,390</td>
-  </tr>
-  <tr>
-    <td>1894</td>
-    <td class="tdr">122,564</td>
-  </tr>
-  <tr>
-    <td>1895</td>
-    <td class="tdr">121,277</td>
-  </tr>
-  <tr>
-    <td>1896</td>
-    <td class="tdr">145,061</td>
-  </tr>
-  <tr>
-    <td>1897</td>
-    <td class="tdr">165,745</td>
-  </tr>
-  <tr>
-    <td>1898</td>
-    <td class="tdr">183,427</td>
-  </tr>
-  <tr>
-    <td>1899</td>
-    <td class="tdr">192,232</td>
-  </tr>
-  <tr>
-    <td>1900</td>
-    <td class="tdr">358,297</td>
-  </tr>
-  <tr>
-    <td>1901</td>
-    <td class="tdr">313,630</td>
-  </tr>
-  <tr>
-    <td>1902</td>
-    <td class="tdr">353,674</td>
-  </tr>
-  <tr>
-    <td>1903</td>
-    <td class="tdr">445,818</td>
-  </tr>
-  <tr>
-    <td>1904</td>
-    <td class="tdr">637,431</td>
-  </tr>
-  <tr>
-    <td>1905</td>
-    <td class="tdr">560,963</td>
-  </tr>
-  <tr>
-    <td>1906</td>
-    <td class="tdr">578,610</td>
-  </tr>
-  <tr>
-    <td>1907</td>
-    <td class="tdr">756,631</td>
-  </tr>
-  <tr>
-    <td>1908</td>
-    <td class="tdr">1,009,278</td>
-  </tr>
-  <tr>
-    <td>1909</td>
-    <td class="tdr">1,018,837</td>
-  </tr>
-  <tr>
-    <td>1910</td>
-    <td class="tdr">1,032,522</td>
-  </tr>
-  <tr>
-    <td>1911</td>
-    <td class="tdr">1,017,045</td>
-  </tr>
-  <tr>
-    <td>1912</td>
-    <td class="tdr">1,031,050</td>
-  </tr>
-  <tr>
-    <td>1913</td>
-    <td class="tdr">1,002,700</td>
-  </tr>
-  <tr>
-    <td>1914</td>
-    <td class="tdr">936,400</td>
-  </tr>
-  <tr>
-    <td>1915</td>
-    <td class="tdr">960,430</td>
-  </tr>
-  <tr>
-    <td>1916</td>
-    <td class="tdr">948,320</td>
-  </tr>
-  <tr>
-    <td>1917</td>
-    <td class="tdr">995,764</td>
-  </tr>
-  <tr>
-    <td>1918</td>
-    <td class="tdr">820,310</td>
-  </tr>
-</table>
-<p><span class="pagenum" id="Page_163">163</span></p>
-
-<h3><span class="smcap">Exports of Petroleum Products from the
-United States</span></h3>
-
-<p>The following table gives the total export movement
-of petroleum products from the United States from
-the year 1865, when American petroleum products
-commenced to have an international overseas market&mdash;</p>
-
-<table>
-  <tr>
-    <th><i>Year.</i></th>
-    <th><i>Gallons.</i></th>
-    <th><i>Value in<br />Dollars.</i></th>
-  </tr>
-  <tr>
-    <td>1918</td>
-    <td class="tdr">2,714,430,452</td>
-    <td class="tdr">344,290,444</td>
-  </tr>
-  <tr>
-    <td>1917</td>
-    <td class="tdr">2,596,900,000</td>
-    <td class="tdr">253,021,000</td>
-  </tr>
-  <tr>
-    <td>1916</td>
-    <td class="tdr">2,607,482,000</td>
-    <td class="tdr">201,721,000</td>
-  </tr>
-  <tr>
-    <td>1915</td>
-    <td class="tdr">2,328,725,000</td>
-    <td class="tdr">142,941,000</td>
-  </tr>
-  <tr>
-    <td>1914</td>
-    <td class="tdr">2,240,033,000</td>
-    <td class="tdr">139,900,000</td>
-  </tr>
-  <tr>
-    <td>1913</td>
-    <td class="tdr">2,136,465,000</td>
-    <td class="tdr">149,316,000</td>
-  </tr>
-  <tr>
-    <td>1912</td>
-    <td class="tdr">1,883,479,000</td>
-    <td class="tdr">124,210,000</td>
-  </tr>
-  <tr>
-    <td>1911</td>
-    <td class="tdr">1,768,731,000</td>
-    <td class="tdr">105,922,000</td>
-  </tr>
-  <tr>
-    <td>1910</td>
-    <td class="tdr">1,546,067,000</td>
-    <td class="tdr">99,090,000</td>
-  </tr>
-  <tr>
-    <td>1909</td>
-    <td class="tdr">1,561,671,000</td>
-    <td class="tdr">105,999,000</td>
-  </tr>
-  <tr>
-    <td>1908</td>
-    <td class="tdr">1,443,537,000</td>
-    <td class="tdr">104,116,000</td>
-  </tr>
-  <tr>
-    <td>1907</td>
-    <td class="tdr">1,257,430,000</td>
-    <td class="tdr">84,855,000</td>
-  </tr>
-  <tr>
-    <td>1906</td>
-    <td class="tdr">1,257,949,000</td>
-    <td class="tdr">84,041,000</td>
-  </tr>
-  <tr>
-    <td>1905</td>
-    <td class="tdr">1,123,334,000</td>
-    <td class="tdr">79,793,000</td>
-  </tr>
-  <tr>
-    <td>1904</td>
-    <td class="tdr">984,424,000</td>
-    <td class="tdr">79,060,000</td>
-  </tr>
-  <tr>
-    <td>1903</td>
-    <td class="tdr">   941,699,000</td>
-    <td class="tdr">67,253,000</td>
-  </tr>
-  <tr>
-    <td>1902</td>
-    <td class="tdr">1,106,208,000</td>
-    <td class="tdr">72,302,000</td>
-  </tr>
-  <tr>
-    <td>1901</td>
-    <td class="tdr">1,034,643,000</td>
-    <td class="tdr">71,112,000</td>
-  </tr>
-  <tr>
-    <td>1900</td>
-    <td class="tdr">967,252,000</td>
-    <td class="tdr">75,611,000</td>
-  </tr>
-  <tr>
-    <td>1899</td>
-    <td class="tdr">999,713,000</td>
-    <td class="tdr">56,273,000</td>
-  </tr>
-  <tr>
-    <td>1898</td>
-    <td class="tdr">1,034,249,000</td>
-    <td class="tdr">56,125,000</td>
-  </tr>
-  <tr>
-    <td>1897</td>
-    <td class="tdr">973,514,000</td>
-    <td class="tdr">62,635,000</td>
-  </tr>
-  <tr>
-    <td>1896</td>
-    <td class="tdr">890,458,000</td>
-    <td class="tdr">62,383,000</td>
-  </tr>
-  <tr>
-    <td>1895</td>
-    <td class="tdr">884,502,000</td>
-    <td class="tdr">46,660,000</td>
-  </tr>
-  <tr>
-    <td>1894</td>
-    <td class="tdr">908,252,000</td>
-    <td class="tdr">41,499,000</td>
-  </tr>
-  <tr>
-    <td>1893</td>
-    <td class="tdr">904,337,000</td>
-    <td class="tdr">42,142,000</td>
-  </tr>
-  <tr>
-    <td>1892</td>
-    <td class="tdr">715,471,000</td>
-    <td class="tdr">44,805,000</td>
-  </tr>
-  <tr>
-    <td>1891</td>
-    <td class="tdr">710,124,000</td>
-    <td class="tdr">52,026,000</td>
-  </tr>
-  <tr>
-    <td>1890</td>
-    <td class="tdr">664,491,000</td>
-    <td class="tdr">51,403,000</td>
-  </tr>
-  <tr>
-    <td>1889</td>
-    <td class="tdr">616,195,000</td>
-    <td class="tdr">49,913,000</td>
-  </tr>
-  <tr>
-    <td>1888</td>
-    <td class="tdr">578,351,000</td>
-    <td class="tdr">47,042,000</td>
-  </tr>
-  <tr>
-    <td>1887</td>
-    <td class="tdr">592,803,000</td>
-    <td class="tdr">46,824,000</td>
-  </tr>
-  <tr>
-    <td>1886</td>
-    <td class="tdr">577,628,000</td>
-    <td class="tdr">50,199,000</td>
-  </tr>
-  <tr>
-    <td>1885</td>
-    <td class="tdr">574,628,000</td>
-    <td class="tdr">50,257,000</td>
-  </tr>
-  <tr>
-    <td>1884</td>
-    <td class="tdr">513,660,000</td>
-    <td class="tdr">47,103,000</td>
-  </tr>
-  <tr>
-    <td>1883</td>
-    <td class="tdr">505,931,000</td>
-    <td class="tdr">44,913,000</td>
-  </tr>
-  <tr>
-    <td>1882</td>
-    <td class="tdr">559,954,000</td>
-    <td class="tdr">51,232,000</td>
-  </tr>
-  <tr>
-    <td>1881</td>
-    <td class="tdr">397,660,000</td>
-    <td class="tdr">40,315,000</td>
-  </tr>
-  <tr>
-    <td>1880</td>
-    <td class="tdr">423,964,000</td>
-    <td class="tdr">36,208,000</td>
-  </tr>
-  <tr>
-    <td>1879</td>
-    <td class="tdr">378,310,000</td>
-    <td class="tdr">40,305,000</td>
-  </tr>
-  <tr>
-    <td>1878</td>
-    <td class="tdr">338,841,000</td>
-    <td class="tdr">46,574,000</td>
-  </tr>
-  <tr>
-    <td>1877</td>
-    <td class="tdr">309,198,000</td>
-    <td class="tdr">61,789,000</td>
-  </tr>
-  <tr>
-    <td>1876</td>
-    <td class="tdr">243,660,000</td>
-    <td class="tdr">32,915,000</td>
-  </tr>
-  <tr>
-    <td>1875</td>
-    <td class="tdr">221,955,000</td>
-    <td class="tdr">30,078,000</td>
-  </tr>
-  <tr>
-    <td>1874</td>
-    <td class="tdr">247,806,000</td>
-    <td class="tdr">41,245,000</td>
-  </tr>
-  <tr>
-    <td>1873</td>
-    <td class="tdr">187,815,000</td>
-    <td class="tdr">42,050,000</td>
-  </tr>
-  <tr>
-    <td>1872</td>
-    <td class="tdr">145,171,000</td>
-    <td class="tdr">34,058,000</td>
-  </tr>
-  <tr>
-    <td>1871</td>
-    <td class="tdr">149,892,000</td>
-    <td class="tdr">36,894,000</td>
-  </tr>
-  <tr>
-    <td>1870</td>
-    <td class="tdr">113,735,000</td>
-    <td class="tdr">32,668,000</td>
-  </tr>
-  <tr>
-    <td>1869</td>
-    <td class="tdr">100,636,000</td>
-    <td class="tdr">31,127,000</td>
-  </tr>
-  <tr>
-    <td>1868</td>
-    <td class="tdr">79,456,000</td>
-    <td class="tdr">21,810,000</td>
-  </tr>
-  <tr>
-    <td>1867</td>
-    <td class="tdr">70,255,000</td>
-    <td class="tdr">24,407,000</td>
-  </tr>
-  <tr>
-    <td>1866</td>
-    <td class="tdr">50,987,000</td>
-    <td class="tdr">24,830,000</td>
-  </tr>
-  <tr>
-    <td>1865</td>
-    <td class="tdr">25,496,000</td>
-    <td class="tdr">16,563,000</td>
-  </tr>
-</table>
-<p><span class="pagenum" id="Page_164">164</span></p>
-
-<h3><span class="smcap">Russia’s Crude Oil Production During the
-Past Fifty Years</span></h3>
-
-<p>The output of crude petroleum in the Russian oil-fields
-during the past fifty years is given in the following
-table. For the purpose of comparison, the figures are
-given in barrels of 42 gallons, rather than in poods
-(62 to the ton) which is the usual manner of recording
-Russian quantities. The figures are as under&mdash;</p>
-
-<table>
-  <tr>
-    <th><i>Year.</i></th>
-    <th><i>Barrels.</i></th>
-  </tr>
-  <tr class="tdr">
-    <td>1869</td>
-    <td>202,308</td>
-  </tr>
-  <tr class="tdr">
-    <td>1870</td>
-    <td>204,618</td>
-  </tr>
-  <tr class="tdr">
-    <td>1871</td>
-    <td>165,129</td>
-  </tr>
-  <tr class="tdr">
-    <td>1872</td>
-    <td>184,391</td>
-  </tr>
-  <tr class="tdr">
-    <td>1873</td>
-    <td>474,379</td>
-  </tr>
-  <tr class="tdr">
-    <td>1874</td>
-    <td>583,751</td>
-  </tr>
-  <tr class="tdr">
-    <td>1875</td>
-    <td>697,364</td>
-  </tr>
-  <tr class="tdr">
-    <td>1876</td>
-    <td>1,320,528</td>
-  </tr>
-  <tr class="tdr">
-    <td>1877</td>
-    <td>1,800,720</td>
-  </tr>
-  <tr class="tdr">
-    <td>1878</td>
-    <td>2,400,960</td>
-  </tr>
-  <tr class="tdr">
-    <td>1879</td>
-    <td>2,761,104</td>
-  </tr>
-  <tr class="tdr">
-    <td>1880</td>
-    <td>3,001,200</td>
-  </tr>
-  <tr class="tdr">
-    <td>1881</td>
-    <td>3,601,441</td>
-  </tr>
-  <tr class="tdr">
-    <td>1882</td>
-    <td>4,537,815</td>
-  </tr>
-  <tr class="tdr">
-    <td>1883</td>
-    <td>6,002,401</td>
-  </tr>
-  <tr class="tdr">
-    <td>1884</td>
-    <td>10,804,577</td>
-  </tr>
-  <tr class="tdr">
-    <td>1885</td>
-    <td>13,924,596</td>
-  </tr>
-  <tr class="tdr">
-    <td>1886</td>
-    <td>18,006,407</td>
-  </tr>
-  <tr class="tdr">
-    <td>1887</td>
-    <td>18,367,781</td>
-  </tr>
-  <tr class="tdr">
-    <td>1888</td>
-    <td>23,048,787</td>
-  </tr>
-  <tr class="tdr">
-    <td>1889</td>
-    <td>24,609,407</td>
-  </tr>
-  <tr class="tdr">
-    <td>1890</td>
-    <td>28,691,218</td>
-  </tr>
-  <tr class="tdr">
-    <td>1891</td>
-    <td>34,573,181</td>
-  </tr>
-  <tr class="tdr">
-    <td>1892</td>
-    <td>35,774,504</td>
-  </tr>
-  <tr class="tdr">
-    <td>1893</td>
-    <td>40,456,519</td>
-  </tr>
-  <tr class="tdr">
-    <td>1894</td>
-    <td>36,375,428</td>
-  </tr>
-  <tr class="tdr">
-    <td>1895</td>
-    <td>46,140,174</td>
-  </tr>
-  <tr class="tdr">
-    <td>1896</td>
-    <td>47,220,633</td>
-  </tr>
-  <tr class="tdr">
-    <td>1897</td>
-    <td>54,399,568</td>
-  </tr>
-  <tr class="tdr">
-    <td>1898</td>
-    <td>61,609,357</td>
-  </tr>
-  <tr class="tdr">
-    <td>1899</td>
-    <td>65,954,968</td>
-  </tr>
-  <tr class="tdr">
-    <td>1900</td>
-    <td>75,779,417</td>
-  </tr>
-  <tr class="tdr">
-    <td>1901</td>
-    <td>85,168,556</td>
-  </tr>
-  <tr class="tdr">
-    <td>1902</td>
-    <td>80,540,044</td>
-  </tr>
-  <tr class="tdr">
-    <td>1903</td>
-    <td>75,591,256</td>
-  </tr>
-  <tr class="tdr">
-    <td>1904</td>
-    <td>78,536,655</td>
-  </tr>
-  <tr class="tdr">
-    <td>1905</td>
-    <td>54,960,270</td>
-  </tr>
-  <tr class="tdr">
-    <td>1906</td>
-    <td>58,897,311</td>
-  </tr>
-  <tr class="tdr">
-    <td>1907</td>
-    <td>61,850,734</td>
-  </tr>
-  <tr class="tdr">
-    <td>1908</td>
-    <td>62,186,447</td>
-  </tr>
-  <tr class="tdr">
-    <td>1909</td>
-    <td>65,970,250</td>
-  </tr>
-  <tr class="tdr">
-    <td>1910</td>
-    <td>70,336,574</td>
-  </tr>
-  <tr class="tdr">
-    <td>1911</td>
-    <td>66,183,691</td>
-  </tr>
-  <tr class="tdr">
-    <td>1912</td>
-    <td>68,019,208</td>
-  </tr>
-  <tr class="tdr">
-    <td>1913</td>
-    <td>62,834,356</td>
-  </tr>
-  <tr class="tdr">
-    <td>1914</td>
-    <td>67,020,522</td>
-  </tr>
-  <tr class="tdr">
-    <td>1915</td>
-    <td>68,548,062</td>
-  </tr>
-  <tr class="tdr">
-    <td>1916</td>
-    <td>72,801,110</td>
-  </tr>
-  <tr class="tdr">
-    <td>1917</td>
-    <td>69,000,000</td>
-  </tr>
-</table>
-
-<p><span class="pagenum" id="Page_165">165</span></p>
-
-<h2 id="INDEX">INDEX</h2>
-
-<ul class="index"><li class="ifrst">Advantages of liquid fuel, <a href="#Page_78">78</a></li>
-<li class="indx">A few notable petroleum enterprises, <a href="#Page_148">148</a></li>
-<li class="indx">American petroleum exports, <a href="#Page_163">163</a></li>
-<li class="indx">America’s crude oil production, <a href="#Page_160">160</a></li>
-<li class="indx">America, the petroleum industry in, <a href="#Page_8">8</a></li>
-<li class="indx">Anglo-American Oil Company, Ltd., the, <a href="#Page_156">156</a></li>
-<li class="indx">Anglo-Persian Oil Company, Ltd., the, <a href="#Page_153">153</a></li>
-
-<li class="ifrst">Baku-Batoum pipe-line, <a href="#Page_24">24</a>, <a href="#Page_69">69</a></li>
-<li class="indx">Baku, boring operations in, <a href="#Page_22">22</a></li>
-<li class="indx">&mdash;&mdash;, the oil-fields of, <a href="#Page_19">19</a></li>
-<li class="indx">British Empire, petroleum in, <a href="#Page_114">114</a></li>
-<li class="indx">Burmah Oil Company, Ltd., the, <a href="#Page_152">152</a></li>
-<li class="indx">&mdash;&mdash;, the oil fields of, <a href="#Page_35">35</a></li>
-
-<li class="ifrst">California petroleum industry, <a href="#Page_9">9</a></li>
-<li class="indx">Canada, petroleum in, <a href="#Page_118">118</a></li>
-<li class="indx">Chemical composition of petroleum, <a href="#Page_52">52</a></li>
-<li class="indx">Cooking by means of oil, <a href="#Page_93">93</a></li>
-
-<li class="ifrst">Distillation of Scottish oil shales, <a href="#Page_144">144</a></li>
-<li class="indx">Drilling methods for oil, <a href="#Page_41">41</a></li>
-<li class="indx">Dutch Indies, petroleum in the, <a href="#Page_23">23</a></li>
-
-<li class="ifrst">Egyptian oil-fields, the, <a href="#Page_116">116</a></li>
-<li class="indx">Empire oil, <a href="#Page_114">114</a></li>
-<li class="indx">England, petroleum in, <a href="#Page_104">104</a></li>
-<li class="indx">England’s petroleum trade, <a href="#Page_160">160</a></li>
-
-<li class="ifrst">Famous oil companies, <a href="#Page_148">148</a></li>
-<li class="indx">Fifty years’ American production, <a href="#Page_160">160</a></li>
-<li class="indx">&mdash;&mdash; &mdash;&mdash; Russian production, <a href="#Page_164">164</a></li>
-
-<li class="ifrst">Galicia’s crude oil production, <a href="#Page_162">162</a></li>
-<li class="indx">Galicia, the oil-fields of, <a href="#Page_36">36</a></li>
-<li class="indx">Germany’s attempts at oil production, <a href="#Page_39">39</a></li>
-<li class="indx">&mdash;&mdash; march on Roumania, <a href="#Page_30">30</a></li>
-<li class="indx">&mdash;&mdash; output of crude oil, <a href="#Page_162">162</a></li>
-
-<li class="ifrst">Hand-dug wells in Roumania, <a href="#Page_29">29</a></li>
-<li class="indx">Heathfield, natural gas in, <a href="#Page_109">109</a></li>
-<li class="indx">How petroleum is produced, <a href="#Page_41">41</a></li>
-<li class="indx">&mdash;&mdash; &mdash;&mdash; is refined, <a href="#Page_51">51</a></li>
-<li class="indx">&mdash;&mdash; the Scottish shales are operated, <a href="#Page_136">136</a></li>
-
-<li class="ifrst">Internal combustion engines, <a href="#Page_95">95</a></li>
-
-<li class="ifrst">Japan, petroleum in, <a href="#Page_36">36</a></li>
-
-<li class="ifrst">Liquid fuel in the Navy, <a href="#Page_78">78</a></li>
-<li class="indx">Lord Cowdray’s enterprise in England, <a href="#Page_111">111</a></li>
-<li class="indx">&mdash;&mdash; &mdash;&mdash; &mdash;&mdash; Mexico, <a href="#Page_16">16</a>, <a href="#Page_151">151</a></li>
-
-<li class="ifrst">Maikop oil boom, the, <a href="#Page_20">20</a></li>
-<li class="indx">Messrs. Vickers, Ltd., new engines of, <a href="#Page_96">96</a>, <a href="#Page_102">102</a></li>
-<li class="indx">Methods of drilling wells, <a href="#Page_43">43</a></li>
-<li class="indx">Mexico’s crude oil production, <a href="#Page_161">161</a></li>
-<li class="indx">&mdash;&mdash; petroleum industry, <a href="#Page_12">12</a>
-<span class="pagenum" id="Page_166">166</span></li>
-
-<li class="ifrst">Ocean oil transport facilities, <a href="#Page_71">71</a></li>
-<li class="indx">Oil fuel advantages, <a href="#Page_82">82</a></li>
-<li class="indx">Origin of petroleum, <a href="#Page_3">3</a></li>
-
-<li class="ifrst">Petroleum as fuel, <a href="#Page_76">76</a></li>
-<li class="indx">&mdash;&mdash; in England, <a href="#Page_104">104</a></li>
-<li class="indx">&mdash;&mdash; in historical times, <a href="#Page_2">2</a></li>
-<li class="indx">Petroleum’s part in the Great War, <a href="#Page_123">123</a></li>
-<li class="indx">Petroleum, the production of, <a href="#Page_41">41</a></li>
-<li class="indx">&mdash;&mdash;, the refining of, <a href="#Page_51">51</a></li>
-<li class="indx">&mdash;&mdash;, the world’s output of, <a href="#Page_158">158</a></li>
-
-<li class="ifrst">Remarkable oil wells in Mexico, <a href="#Page_14">14</a></li>
-<li class="indx">Rotary system of drilling, <a href="#Page_48">48</a></li>
-<li class="indx">Roumania, petroleum industry of, <a href="#Page_28">28</a></li>
-<li class="indx">Roumania’s crude oil production, <a href="#Page_160">160</a></li>
-<li class="indx">Russia, petroleum industry of, <a href="#Page_18">18</a></li>
-<li class="indx">Russia’s crude oil production, <a href="#Page_164">164</a></li>
-
-<li class="ifrst">Scottish oil pipe-line, <a href="#Page_70">70</a></li>
-<li class="indx">&mdash;&mdash; shale-oil industry, <a href="#Page_132">132</a></li>
-<li class="indx">“Shell” Company and the Dutch Indies, <a href="#Page_33">33</a></li>
-<li class="indx">&mdash;&mdash; Transport and Trading Co., the, <a href="#Page_150">150</a></li>
-<li class="indx">Sir Marcus Samuel, Bart., and toluol supplies, <a href="#Page_130">130</a></li>
-<li class="indx">Solar oil for gas enrichment purposes, <a href="#Page_61">61</a></li>
-<li class="indx">Staffordshire, petroleum in, <a href="#Page_106">106</a></li>
-
-<li class="ifrst">Texas, the oil-fields of, <a href="#Page_10">10</a></li>
-<li class="indx">Toluol from Borneo petroleum, <a href="#Page_62">62</a></li>
-<li class="indx">Transport of petroleum, <a href="#Page_63">63</a></li>
-<li class="indx">Trinidad, progress in, <a href="#Page_117">117</a></li>
-
-<li class="ifrst">Vicker’s oil engines, <a href="#Page_102">102</a></li></ul>
-
-<p class="caption">THE END</p>
-
-<p class="table copy"><i>Printed by Sir Isaac Pitman &amp; Sons, Ltd., Bath, England</i></p>
-
-
-<div class="transnote">
-
-<h3>Transcriber's Note:</h3>
-
-<p>Inconsistent spelling and hyphenation are as in the original.</p>
-
-</div>
-
-
-
-
-
-
-
-
-<pre>
-
-
-
-
-
-End of the Project Gutenberg EBook of Petroleum, by Albert Lidgett
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