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+       The Project Gutenberg eBook of Hemp Hurds as Paper-Making Material, by Lyster H. Dewey and Jason L. Merrill.
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+<pre>
+
+The Project Gutenberg EBook of Hemp Hurds as Paper-Making Material, by 
+Lyster H. Dewey and Jason L. Merrill
+
+This eBook is for the use of anyone anywhere 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
+
+
+Title: Hemp Hurds as Paper-Making Material
+       United States Department of Agriculture, Bulletin No. 404
+
+Author: Lyster H. Dewey and Jason L. Merrill
+
+Release Date: February 25, 2006 [EBook #17855]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK HEMP HURDS AS PAPER-MAKING ***
+
+
+
+
+Produced by K.D. Thornton and the Online Distributed
+Proofreading Team at http://www.pgdp.net
+
+
+
+
+
+
+</pre>
+
+
+<p><span class="pnm"><a name="Page_1" id="Page_1"> -1- </a></span></p>
+
+<div class="banner">
+<h2>UNITED STATES DEPARTMENT OF AGRICULTURE</h2>
+<p><a href="images/001.jpg"><img src="images/001t.jpg" width="100" class="figleft" alt="USDA logo" /></a>
+<a href="images/001.jpg"><img src="images/001t.jpg" class="figright" alt="USDA logo" width="100" /></a><br /></p>
+<p class="bighead">BULLETIN&nbsp;No.&nbsp;404</p>
+<p style="position:relative; text-align: center; margin-left:auto;
+margin-right:auto; font-weight:bold;">Contribution from the Bureau of
+Plant Industry<br />
+WM. A. TAYLOR, Chief</p><br />
+</div>
+
+
+<div class="bb">
+<span class="figright">October 14, 1916</span>
+<span class="figleft">Washington, D.C.</span>
+<p style="position:relative; text-align: center; margin-left:auto;
+margin-right:auto;">PROFESSIONAL PAPER</p>
+</div>
+
+
+<h2>HEMP HURDS AS PAPER-MAKING MATERIAL.</h2>
+<p><a name="HEMP_HURDS_AS_PAPER-MAKING_MATERIAL"
+id="HEMP_HURDS_AS_PAPER-MAKING_MATERIAL"></a></p>
+<p>By <span class="smcap">Lyster H. Dewey</span>, <i>Botanist in
+Charge of Fiber-Plant Investigations</i>, and <span
+class="smcap">Jason L.
+Merrill</span>, <i>Paper-Plant Chemist, Paper-Plant Investigations</i>.</p>
+
+
+<hr style="width: 65%;" />
+<h2><a name="CONTENTS" id="CONTENTS"></a>CONTENTS.</h2>
+
+<table class="nobox" width="100%" summary="table of contents">
+<tr>
+<td colspan="2">Page</td>
+<td colspan="2" style="border-right:0px;">Page</td>
+</tr>
+<tr>
+<td colspan="2" class="titl"><a href="#THE_PRODUCTION_AND_HANDLING_OF_HEMP_HURDS">The production and
+handling of hemp hurds.</a></td>
+<td colspan="2" class="titl" style="border-right:0px;"><a href="#THE_MANUFACTURE_OF_PAPER_FROM_HEMP_HURDS">The manufacture of
+paper from hemp hurds.</a></td>
+</tr>
+<tr>
+<td colspan="2" class="toc">by Lyster H. Dewey:</td><td
+colspan="2"  class="toc" style="border-right:0px;">by Jason L.
+Merrill:</td></tr>
+<tr><td class="toc" style="border-right:0px;">What hemp hurds
+are</td><td><span class="pagenum"><a href="#Page_1">1</a></span>
+</td><td class="toc" style="border-right:0px;">Introduction </td><td
+style="border-right:0px;"><span class="pagenum"><a
+href="#Page_7">7</a></span></td></tr>
+<tr><td class="toc" style="border-right:0px;">Pith, wood, and
+fiber</td><td><span class="pagenum"><a href="#Page_2">2</a></span>
+</td><td class="toc" style="border-right:0px;">Factors justifying an
+investigation of hemp hurds </td><td style="border-right:0px;"><span
+class="pagenum"><a href="#Page_8">8</a></span></td></tr>
+<tr><td class="toc" style="border-right:0px;">Character of hurds
+affected by retting </td><td><span class="pagenum"><a
+href="#Page_2">2</a></span> </td><td class="toc"
+style="border-right:0px;">Character of the material </td><td
+style="border-right:0px;"><span class="pagenum"><a
+href="#Page_11">11</a></span></td></tr>
+<tr><td class="toc" style="border-right:0px;">Proportion of hurds to
+fiber and yield per acre </td><td><span class="pagenum"><a
+href="#Page_3">3</a></span> </td><td class="toc"
+style="border-right:0px;">Character of the tests </td><td
+style="border-right:0px;"><span class="pagenum"><a
+href="#Page_12">12</a></span></td></tr>
+<tr><td class="toc" style="border-right:0px;">Hurds available from
+machine-broken hemp </td><td><span class="pagenum"><a
+href="#Page_3">3</a></span> </td><td class="toc"
+style="border-right:0px;">Operations involved in a test </td><td
+style="border-right:0px;"><span class="pagenum"><a
+href="#Page_13">13</a></span></td></tr>
+<tr><td class="toc" style="border-right:0px;">Present uses of hemp
+hurds </td><td><span class="pagenum"><a href="#Page_4">4</a></span>
+</td><td class="toc" style="border-right:0px;">Description of tests
+</td><td style="border-right:0px;"><span class="pagenum"><a
+href="#Page_16">16</a></span></td></tr>
+<tr><td class="toc" style="border-right:0px;">Present supplies of
+hurds available </td><td><span class="pagenum"><a
+href="#Page_5">5</a></span> </td><td class="toc"
+style="border-right:0px;">Comparison of the tests and commercial
+practice </td><td style="border-right:0px;"><span class="pagenum"><a
+href="#Page_21">21</a></span></td></tr>
+<tr><td class="toc" style="border-right:0px;">Baling for shipment
+</td><td><span class="pagenum"><a href="#Page_5">5</a></span>
+</td><td class="toc" style="border-right:0px;">Physical tests of the
+papers produced </td><td style="border-right:0px;"><span
+class="pagenum"><a href="#Page_24">24</a></span></td></tr>
+<tr><td class="toc" style="border-right:0px;">Cost of baling
+</td><td><span class="pagenum"><a href="#Page_5">5</a></span>
+</td><td class="toc" style="border-right:0px;">Conclusions </td><td
+style="border-right:0px;"><span class="pagenum"><a
+href="#Page_25">25</a></span></td></tr>
+<tr><td class="toc" style="border-right:0px;">Summary </td><td><span
+class="pagenum"><a href="#Page_6">6</a></span></td><td style="border-right:0px;">&nbsp;</td><td style="border-right:0px;">&nbsp;</td></tr></table>
+
+
+
+<p>In preparing the report on the manufacture of paper from hemp
+hurds it became evident that a short discussion of the agricultural
+aspects of this material should be included in the publication. Such
+an article was prepared, therefore, and the two reports are here presented
+together.</p>
+<hr style="width: 65%;" />
+
+<div class="footnote"><p><span class="smcap">Note</span>.
+&mdash;This bulletin should be useful to all persons who are
+interested in the economic phases of paper
+making, especially to print and book paper manufacturers. It also
+should be of interest to scientific investigators
+and chemists.</p></div>
+
+
+<hr style="width: 65%;" />
+<h2><a name="THE_PRODUCTION_AND_HANDLING_OF_HEMP_HURDS"
+id="THE_PRODUCTION_AND_HANDLING_OF_HEMP_HURDS"></a>
+THE PRODUCTION AND HANDLING OF HEMP HURDS.</h2>
+
+<p class="center">By <span class="smcap">Lyster H. Dewey</span>,
+<i>Botanist in Charge of Fiber-Plant Investigations</i>.</p>
+
+
+<h3>WHAT HEMP HURDS ARE.</h3>
+
+<p>The woody inner portion of the hemp stalk, broken into pieces and
+separated from the fiber in the processes of breaking and scutching,
+is called hemp hurds. These hurds correspond to shives in flax, but
+are much coarser and are usually softer in texture.</p>
+
+
+<p><span class="pnm"><a name="Page_2" id="Page_2"> -2- </a></span>The
+hemp stalk grown in a broadcast crop for fiber production is
+from one-eighth to three-eighths of an inch in diameter and from 4
+to 10 feet tall. The stalk is hollow, with a cylindrical woody shell, thick
+near the base, where the stalk is nearly solid, and thinner above, where
+the hollow is relatively wider.</p>
+
+<p>In the process of breaking, the woody cylinder inside of the fiber-bearing
+bark is broken into pieces one-half of an inch to 3 inches long
+and usually split into numerous segments. The thicker lower sections
+are split less than the thin-shelled upper ones, and they are often
+left quite solid.</p>
+
+
+<h3>PITH, WOOD, AND FIBER.</h3>
+
+<p>The inner surface of the hurds usually bears a layer of pith, consisting
+of thin-walled cells nearly spherical or angular, but not elongated.
+They are more or less crushed and torn. They are probably of little
+value for paper, but they constitute less than 1 per cent of the weight
+of the hurds. The principal weight and bulk consist of slender elongated
+woody cells. The outer surface is covered with fine secondary
+fibers composed of slender elongated cells, tougher than those of the
+wood but finer and shorter than those of the hemp fiber of commerce.
+No method has been devised thus far which completely separates
+from the hurds all of the long fiber. From 5 to 15 per cent of the
+weight of the hurds consists of hemp fiber, in strands from 3 inches
+to 8 feet in length. Some fragments of the bark, made up of short
+cubical cells, usually dark in color, cling to the strands of fiber.</p>
+
+
+<h3>CHARACTER OF HURDS AFFECTED BY RETTING.</h3>
+
+<p>Nearly all of the hemp in the United States is dew retted. The
+stalks are spread on the ground in swaths as grain is laid by the cradle.
+The action of the weather, dew, and rain, aided by bacteria, dissolves
+and washes out the green coloring matter (chlorophyll) and most of
+the gums, leaving only the fibrous bark and the wood. The plants in
+this process lose about 60 per cent of their green weight, or about 40
+per cent of their air-dry weight.</p>
+
+<p>The stalks are sometimes set up in shocks to cure before retting,
+and after retting they are set up in shocks to dry. Each time the
+stalks are handled they are chucked down on the ground to keep the
+butts even. In these operations sand and clay are often driven up
+into the hollow at the base of the stalks, and this dirt, which often
+clings tenaciously, may constitute all objectionable feature in the use
+of hemp hurds for paper stock.</p>
+
+<p>In Italy and in most localities in Russia and Austria-Hungary
+where hemp is extensively cultivated, it is retted in water, but water
+retting has never been practiced in the United States except to a
+limited extent before the middle of the last century. Hurds from
+<span class="pnm"><a name="Page_3" id="Page_3"> -3-
+</a></span>water-retted hemp are cleaner and softer than those from
+dew-retted
+hemp.</p>
+
+<p>The fiber is sometimes broken from dry hemp stalks without retting.
+The hurds thus produced contain a small percentage of soluble gums,
+chiefly of the pectose series. Comparatively little hemp is prepared
+in this manner in America.</p>
+
+<p>Process retting by means of weak solutions of chemicals or oils in
+hot water is practiced to a limited extent. The hurds from these
+processes may contain traces of the chemicals or oils and also soluble
+gums in greater degree than those of the dew-retted or water-retted
+hemp.</p>
+
+
+<h3>PROPORTION OF HURDS TO FIBER AND YIELD PER ACRE.</h3>
+
+<p>The yield of hemp fiber varies from 400 to 2,500 pounds per acre,
+averaging 1,000 pounds under favorable conditions. The weight of
+hurds is about five times that of the fiber, or somewhat greater from
+hemp grown on peaty soils. A yield of 2&frac12; tons of hurds per acre may
+be taken as a fair average.</p>
+
+<p class="caption"><a href="images/fig1.jpg"><img
+src="images/fig1t.jpg" alt="The stalks are fed sidewise in a
+continuous layer 2 to 3 inches thick,
+turning out about 4,000 pounds of clean fiber per day and five times
+as much hurds."  title="The stalks are fed sidewise in a continuous
+layer 2 to 3 inches thick,
+turning out about 4,000 pounds of clean fiber per day and five times
+as much hurds." class="figcenter" /></a><br /><span
+class="smcap">Fig. 1.</span>&mdash;Hemp-breaking machine.
+The stalks are fed sidewise in a continuous layer 2 to 3 inches thick,
+turning out about 4,000 pounds of clean fiber per day and five times
+as much hurds.</p>
+
+
+
+<h3>HURDS AVAILABLE FROM MACHINE-BROKEN HEMP.</h3>
+
+<p>Hemp hurds are available only from hemp which is broken by
+machines, when the hurds may be collected in quantity in one place
+(figs. 1 and 2). Most of the hemp in Kentucky is still broken by
+hand brakes. These small brakes are moved from shock to shock, so
+that the hurds are scattered all over the field in small piles of less
+than 50 pounds each, and it is the common practice to set fire to them
+as soon as the brake is moved. It would be difficult to collect them
+at a cost which would permit their use for paper stock.</p>
+
+<p>Where machine brakes are used, the hemp stalks are brought to the
+machine as grain is brought to a thrashing machine, and the hurds
+<span class="pnm"><a name="Page_4" id="Page_4"> -4-
+</a></span>accumulate in large piles, being blown from the machine by
+wind
+stackers.</p>
+
+<p>Machine brakes are used in Wisconsin, Indiana, Ohio, and California,
+but to only a limited extent in Kentucky. Five different kinds
+of machine brakes are now in actual use in this country, and still
+others are used in Europe. All of the best hemp in Italy, commanding
+the highest market price paid for any hemp, is broken by machines.
+The better machine brakes now in use in this country prepare the
+fiber better and much more rapidly than the hand brakes, and they
+will undoubtedly be used in all localities where hemp raising is introduced
+as a new industry. They may also be used in Kentucky when
+their cost is reduced to more reasonable rates, so that they may
+compete with the hand brake. Hemp-breaking machines are being
+improved and their use is increasing. The hemp-growing industry
+can increase in this country only as machine brakes are developed to
+prepare the fiber. A profitable use for the hurds will add an incentive
+to the use of the machine brake.</p>
+
+<p  class="caption"><a href="images/fig2.jpg"><img
+src="images/fig2t.jpg" alt="Machine brake and hemp hurds.
+Hemp hurds from machine brakes quickly accumulate in
+large piles."  title="Machine brake and hemp hurds.
+Hemp hurds from machine brakes quickly accumulate in
+large piles." class="figcenter" /></a><br />
+<span class="smcap">Fig. 2.</span>&mdash;Machine brake and hemp hurds.
+Hemp hurds from machine brakes quickly accumulate in
+large piles.</p>
+
+
+<h3>PRESENT USES OF HEMP HURDS.</h3>
+
+<p>Hemp hurds are used to a limited extent for barnyard litter and
+stable bedding, as a substitute for sawdust in packing ice, and, in
+rare instances, for fuel. They are not regarded as having a commercial
+value for any of these uses, though they are doubtless worth at
+least $1 per ton on the farm when used for stable bedding. They are
+a waste product, without value for other purposes which might compete
+with their use for paper stock.</p>
+
+
+<p><span class="pnm"><a name="Page_5" id="Page_5"> -5- </a></span></p>
+<h3>PRESENT SUPPLIES OF HURDS AVAILABLE.</h3>
+
+<p>During the last season, 1915, about 1,500 acres of hemp have been
+harvested outside of Kentucky and in regions where machine brakes
+are used. Estimating the yield of hurds at 2&frac12; tons per acre, this
+should give a total quantity of about 3,750 tons. Large quantities of
+hemp from the crop of 1914, which are still unbroken in these areas,
+and large piles of hurds undisturbed where the machines have been
+used during the last two or three years, increase the total to more
+than 7,000 tons. Hemp is now grown outside of Kentucky in the
+vicinity of McGuffey, east of Lima, Ohio; around Nappanee, Elkhart
+County, and near Pierceton, in Kosciusko County, Ind.; about Waupun
+and Brandon, Wis.; and at Rio Vista and Stockton, Cal.</p>
+
+<p>In Kentucky, hemp is grown in most of the counties within a radius
+of 50 miles of Lexington. No accurate statistics of the acreage are
+collected, but the crop harvested in 1915 is estimated at 7,000 acres.
+A machine brake will probably be used in Bourbon County and also
+in Clark County, but most of the hemp in Kentucky will be broken on
+hand brakes.</p>
+
+
+<h3>BALING FOR SHIPMENT.</h3>
+
+<p>The hurds will have to be baled to facilitate handling in transportation
+and to economize storage space at the paper mills. The bales
+will need to be covered with burlap or some material to keep them
+from shaking out. They may be baled in the same presses that are
+used for baling hemp fiber, but care must be exercised to avoid breaking
+the press, for the hurds are more resistant than hemp fiber. A
+bale of hemp 2 by 3 by 4 feet weighs about 500 pounds. A bale of
+hurds of the same size will weigh about one-third less, or approximately
+six bales per ton.</p>
+
+<p>Rough hemp fiber as it is shipped from the farm is not covered;
+therefore, the covering material must be purchased especially for the
+hurds. A piece of burlap about 36 by 48 inches placed on either side
+of the bale will be sufficient, but these pieces, weighing about 3
+pounds each, cost about 40 cents a pair. Baling rope, in addition to
+jute covering, will cost at least 5 cents per bale, making the total cost
+of covering and ties $2.70 or more per ton. Possibly chip-board,
+costing about $33 per ton, or not more than 5 cents for the two pieces
+for each bale, may be used in place of burlap. Chip-board, burlap,
+and also rope ties may all be used for paper stock. Burlap covers
+might be returned, to be used repeatedly until worn out, but chip-board
+could not be used more than once.</p>
+
+
+<h3>COST OF BALING.</h3>
+
+<p>If burlap covers are used the cost of baling, including covering, ties,
+use of baling press, power, and labor will amount to at least 60 cents
+per bale, or about $3.75 per ton. If chip-board can be used the cost
+<span class="pnm"><a name="Page_6" id="Page_6"> -6- </a></span>may be
+reduced to about $2 per ton. The cost of hauling and loading
+on the cars will vary from $1 to $3 per ton, depending upon the distance
+and the roads. The farmer must therefore receive from $4 to
+$6 per ton for the hurds, baled, on board cars at his home station.</p>
+
+
+<h3>SUMMARY.</h3>
+
+<p>Hemp hurds are the woody inner portion of the hemp stalk, broken
+into pieces in removing the fiber.</p>
+
+<p>They are not used at present for any purpose that would compete
+with their use for paper.</p>
+
+<p>Hurds are available only from machine-broken hemp, for the cost
+of collecting them from the hand brakes would be too great.</p>
+
+<p>About 7,000 tons are now available in restricted localities in Ohio,
+Indiana, Wisconsin, and California.</p>
+
+<p>The quantity is likely to increase as the use of machine brakes
+increases.</p>
+
+<p>The hurds may be baled in hemp-fiber presses, with partial burlap
+covers like those on cotton bales, or possibly chip-board covers.</p>
+
+<p>It is estimated that the farmers may deliver the bales on board
+cars profitably at $4 to $6 per ton.</p>
+
+
+
+
+<hr style="width: 65%;" /><p><span class="pnm"><a name="Page_7"
+id="Page_7"> -7- </a></span></p>
+<h2><a name="THE_MANUFACTURE_OF_PAPER_FROM_HEMP_HURDS"
+id="THE_MANUFACTURE_OF_PAPER_FROM_HEMP_HURDS"></a>
+THE MANUFACTURE OF PAPER FROM HEMP HURDS.</h2>
+
+<p class="center">By <span class="smcap">Jason L. Merrill</span>,
+<i>Paper-Plant Chemist, Paper-Plant Investigations</i>.</p>
+
+
+<h3>INTRODUCTION.</h3>
+
+<p>The purpose of this paper is to report upon preliminary tests which
+were conducted to determine the paper-making value of hemp hurds,
+a crop waste of the hemp-fiber industry.</p>
+
+<p>The search for plant materials capable of being utilized in paper
+manufacture is a comparatively recent but world-wide activity which
+has for its object the husbanding of present sources of paper-stock
+supply by the substitution of new materials for some of those which
+are rapidly becoming less plentiful and more costly.</p>
+
+<p>The abstract idea of utilizing that which is at present a waste can
+play no important r&ocirc;le in such activities, the successful commercial
+outcome of which must be based on the three fundamental factors&mdash;market
+or demand for product, satisfactory raw material, and cost.</p>
+
+<p>Since hemp hurds are to be treated in this report as a raw material
+for the manufacture of book and printing papers, the qualities, supply,
+probable future, and cost of the material will be considered in comparison
+with wood, with which it must compete. There seems to be
+little doubt that the present wood supply can not withstand indefinitely
+the demands placed upon it, and with increased scarcity
+economy in the use of wood will become imperative. This effect is
+already apparent in many wood-using industries, and although the
+paper industry consumes only about 3 per cent of the total forest cut,
+it is probable that it will be affected through this economy. Our
+forests are being cut three times as fast as they grow, and as wood
+becomes more expensive proper growing and reforesting will receive
+more attention. Thus, naturally, a balance will be established between
+production and consumption, but as this condition approaches
+its limiting values the price of wood may rise to such levels that there
+will be a demand for other raw materials.</p>
+
+<p>The use of waste paper in conjunction with chemical wood pulp
+has increased to enormous proportions, and it is probable that the
+increase will continue. Although it is a cheaper raw material than
+wood, it is reasonable to suppose that as the wood supply decreases
+and the price of wood pulp advances, the price of waste paper will
+advance somewhat proportionately.</p>
+
+<p>In view of these conditions it is advisable to investigate the paper-making
+value of the more promising plant materials before a critical
+<span class="pnm"><a name="Page_8" id="Page_8"> -8-
+</a></span>situation arises. To be of substantial value the
+investigations should
+include not only a determination of the quality and quantity of pulp
+and paper which the material is capable of producing, but should
+embrace a consideration of such relevant factors as agricultural conditions,
+farm practice, assembling conditions, transportation, and
+probable future supply.</p>
+
+<p>Certain cultivated plants seem particularly promising, because in
+the harvesting of the regular crop that portion which might be utilized
+for paper manufacture necessarily is either wholly or partially assembled.
+To this class of plants belong corn, broom corn, sorghum,
+sugar cane, bagasse, flax, hemp, and the cereal straws.
+<a name="FNanchor_1_2" id="FNanchor_1_2"></a><a href="#Footnote_1_2"
+class="fnanchor">[1]</a></p>
+
+<p>It is generally conceded that the employment of different raw
+materials would probably yield products of a somewhat different
+quality than those now prevailing in the markets, but the qualities of
+papers and the public demands are so diversified and numerous that
+this possible objection should not be serious. Ten years ago sulphite
+manufacturers would not accept consignments of spruce logs
+if they contained over 5 per cent of fir, while to-day many manufacturers
+tolerate 50 per cent. Rope papers are found to contain not
+only jute, but when this raw material is not plentiful, chemical pulp
+of various kinds. "Linen paper" is often no more than a trade term.
+Not long ago printing papers were made entirely from chemical wood
+pulp, but to-day if it is desired to secure paper which is free from
+ground wood the specifications must so stipulate. Writing papers,
+formerly made entirely from rags, now are likely to contain either
+chemical or even ground-wood pulp unless the specifications prohibit
+it. Without doubt, many paper manufacturers have maintained certain
+papers up to a fixed standard for a long series of years, but it
+is equally true that competition has lowered the standard of a great
+many papers, some of which had acquired a distinctive recognition.
+The employment of plant fibers will not necessarily lower the present
+quality of papers, but if their employment does result in products
+whose qualities are somewhat different from our so-called standard
+papers it does not necessarily follow that such papers will not find
+a ready market.</p>
+
+
+
+<h3>FACTORS JUSTIFYING AN INVESTIGATION OF HEMP HURDS.</h3>
+
+<p>Hemp hurds form a crop waste, in that they necessarily are produced
+in the raising and preparation of hemp fiber, and their present
+use and value are comparatively insignificant.</p>
+
+<p>The assembling of the hurds may be effected with economy, since
+the area in which hemp is handled with the use of machine brakes is
+restricted. Although it must be stated that the present annual
+<span class="pnm"><a name="Page_9" id="Page_9"> -9- </a></span>supply
+would not be sufficient to justify the installation of a pulp mill
+nor would its transportation to existing mills appear feasible, it
+is expected that the available annual tonnage, especially in certain
+general sections, will increase, due to the increased use of the machine
+brake. The present tonnage per annum is approximately as follows:
+In the region of Ohio and Indiana, 2,500 tons; in the Wisconsin section,
+1,000 tons; in the California region, 1,400 tons.</p>
+
+<p>In years of adverse weather conditions there are often large areas
+of hemp which are not harvested on account of its poor quality;
+there are also large areas of cut hemp which become overretted, due
+to inclement weather. It has been suggested by some of the hemp
+raisers that this large amount of material might be utilized as a paper
+stock. In these cases the cost of the whole material would probably
+be somewhat higher than that of the hurds, because either all or part
+of the cost of harvesting and the total cost of breaking would have to
+be borne by the paper maker. Moreover, the quality of this material
+would be so very irregular and the supply so uncertain that it probably
+would not appeal to the paper manufacturer.</p>
+
+<p>Without doubt, hemp will continue to be one of the staple agricultural
+crops of the United States. The wholesale destruction of
+the supply by fire, as frequently happens in the case of wood, is precluded
+by the very nature of the hemp-raising industry. Since
+only one year's growth can be harvested annually the supply is not
+endangered by the pernicious practice of overcropping, which has
+contributed so much to the present high and increasing cost of pulp
+wood. The permanency of the supply of hemp hurds thus seems
+assured.</p>
+
+<p>The favorable location geographically of the hemp regions in relation
+to the pulp and paper industry is a factor of considerable
+importance. The Kentucky region is not at present in a position
+to supply hurds, as machine methods have not been adopted there
+to any appreciable degree. The Ohio and Indiana region, which at
+present has the greatest annual tonnage, with the prospect of an increase,
+is situated south of the Wisconsin and Michigan wood-pulp
+producing region and at a distance from the eastern wood-pulp
+producing regions; therefore, it is in a favorable position to compete
+in the large Ohio and Indiana markets. Since, as will be shown,
+the hurd pulp acts far more like soda poplar stock than sulphite
+stock, competition would be strongest from the eastern mills; in
+fact, the hurd stock might very possibly meet with favor as a book-stock
+furnish in the Michigan and Wisconsin paper mills, which are
+within the sulphite fiber-producing region. Because of its very close
+proximity to paper mills, this latter possibility applies with far
+greater force to the Wisconsin hemp region, where a considerable
+extension of the hemp industry is anticipated.</p>
+
+<p><span class="pnm"><a name="Page_10" id="Page_10"> -10- </a></span></p>
+<p  class="caption"><a href="images/fig3.jpg"><img
+src="images/fig3t.jpg" alt="A representative sample of hemp hurds,
+natural size, showing hemp fiber and pieces of wood tissue."
+title="A representative sample of hemp hurds,
+natural size, showing hemp fiber and pieces of wood tissue."
+class="figcenter2"  /></a><br />
+<span class="smcap">Fig. 3.</span>&mdash;A representative sample of hemp hurds,
+natural size, showing hemp fiber and pieces of wood tissue.</p>
+
+<p><span class="pnm"><a name="Page_11" id="Page_11"> -11- </a></span></p>
+<h3>CHARACTER OF THE MATERIAL.</h3>
+
+<p>As received from Pierceton, Ind., the hurds consisted of a mixture of
+tangled hemp bast fibers and pieces of broken wood of the hemp
+stalk. (Fig. 3.) No reliable data were secured as to the proportion
+of bast fiber in the total shipment of 4 tons, although two
+hand separations of small representative samples gave results averaging
+8 per cent. The chemical character of the material was such
+and the quantity was so small that any appreciable variation of the
+proportion should not affect materially the treating processes finally
+adopted, yet its presence in varying proportions undoubtedly would
+modify to some extent the quality of the resulting paper product.
+Since the length of the ultimate bast fiber averages about 22 mm. and
+the length of the ultimate hemp wood fiber averages 0.7 mm., it is
+natural to assume that the bast fiber would tend to increase the
+strength of paper produced from the hurds. (Fig. 4.)</p>
+
+<p class="caption"><a href="images/fig4.jpg"><img
+src="images/fig4t.jpg" alt="Fiber derived from the woody portion of
+the hurds. &times;75. From a microphotograph."
+  title="Fiber derived from the woody portion of the hurds. &times;75.
+ From a microphotograph." class="figcenter" /></a><br />
+<span class="smcap">Fig. 4.</span>
+&mdash;Fiber derived from the woody portion of the hurds. &times;75.
+ From a microphotograph.</p>
+
+<p>The broken pieces of wood contained in the hurds varied in length
+from mere particles which were somewhat finer than sawdust to pieces
+about 3&#189; inches long, exceptional pieces being found which measured
+6 inches in length. The majority of the long pieces were between 2
+and 3 inches in length. In thickness the pieces ranged from one-eighth
+of an inch, in case they were derived from the base of the hemp stalks,
+to about one sixty-fourth of an inch in those pieces which were
+derived from the top and branches of the stalks. In cross section the
+<span class="pnm"><a name="Page_12" id="Page_12"> -12-
+</a></span>pieces often were found to be a quarter or half of the
+rounded rectangular
+woody shell of the stalk, although there appeared to be no
+regularity in this respect.</p>
+
+<p>From the pulp-maker's standpoint the great irregularity in thickness,
+length, and mass of the woody pieces militates decidedly against
+economy in pulp production. The smaller pieces reduce by chemical
+treatment sooner than the larger fragments and are thereby overtreated,
+which results in a lower yield of cellulose fiber and a product
+composed of undertreated and overtreated fibers, the production and
+use of which are not satisfactory or economical. It probably would
+be found more satisfactory, therefore, to screen or sort the hurds and
+treat the various sizes separately and differently.</p>
+
+<p>Associated with the hurds was a small quantity of chaff and dirt,
+composed chiefly of sand, soil, particles of hemp leaves and flowers,
+and other extraneous matter. The sand and soil were present
+because of the practice of placing the stalks in shocks in the field, the
+butts of the stalks being in contact with the soil. It is a simple
+matter, however, to remove the chaff and dirt by sieving, and this
+practice was followed in most of the paper tests conducted with this
+material.</p>
+
+
+<h3>CHARACTER OF THE TESTS.</h3>
+
+<p>Because of the similarity of hemp hurds to other materials which have
+been tested by the Office of Paper-Plant Investigations, semicommercial
+tests were conducted in cooperation with a paper manufacturer
+without preliminary laboratory tests. Laboratory pulp and
+paper tests are regarded only as a preliminary to semicommercial
+tests and therefore are not employed unless the material in question
+presents new features which should receive investigation before
+larger sized tests are undertaken.</p>
+
+<p>The advantages of cooperative mill tests are many, among which
+may be mentioned the counsel and advice of the mill management
+and employees, the services of specialized and skilled labor, facilities
+for comparing the processes and the results of tests with commercial
+processes and results, and the use of commercial or semicommercial
+types and sizes of machinery. Tests conducted in this
+manner and on this scale are of a different quality than is possible
+in those conducted in a laboratory, and the results are susceptible
+of commercial interpretation with a fair degree of reliability.
+It is found, in general, that the cost of securing such equipment and
+service for a complete and comprehensive test does not exceed $500,
+while the installation of an equally satisfactory equipment alone
+would cost at least $50,000 and in many cases very much more.
+Tests conducted in this manner constitute a direct demonstration to
+the manufacturer, and the results obtained are found to carry more
+weight when presented to other manufacturers for consideration.</p>
+
+<p><span class="pnm"><a name="Page_13" id="Page_13"> -13-
+</a></span>It is well known that the method of conducting tests
+necessarily
+varies with the size of the test. In the matter of yield determination,
+for example, laboratory tests may be on such a small scale that the
+weighing and sampling of the resulting cellulose fibers may be conducted
+by means of chemical laboratory apparatus and analytical
+balance, while in tests involving a matter of 5 to 10 pounds of material
+larger and different types of equipment are necessary. When
+the tests are so increased in size as to employ 300 or 400 pounds,
+still other types of equipment are necessary for the treatment of
+the material and for a determination of the yield of fiber. In
+tests involving tons of material the equipment involves the use of
+machines. Accuracy in degree of control and in results will vary
+materially with the size of the test. As the size of the test increases,
+certain factors will vary in a beneficial manner, while others will vary
+in a detrimental manner, so it is a question for each investigator to
+decide, after taking all factors into consideration, as to the size of
+test which will give the most satisfactory results. In work of this
+nature it is found, on the whole, that better results are obtained in
+large tests, although the control of the factors and the determination
+of the yield of fiber are more difficult than in smaller tests.</p>
+
+<p>In the tests described in this bulletin, the Department of Agriculture
+employed a rotary digester of its own design,<a name="FNanchor_1_3"
+id="FNanchor_1_3"></a><a href="#Footnote_1_3" class="fnanchor">[2]</a>
+comprising a shell
+5 feet 5 inches in length by 4 feet in diameter, capable of holding
+about 300 pounds of air-dry hurds. It is believed that a test of this
+size is large enough to give satisfactory results and that the results
+are susceptible of commercial interpretation, while at the same time
+they are sufficiently small for complete control and to afford fiber-yield
+figures which are both accurate and reliable. Two such rotary
+charges gave enough fiber for one complete paper-making test.</p>
+
+
+<h3>OPERATIONS INVOLVED IN A TEST.</h3>
+
+<p>A complete test on hurds comprises seven distinct operations, and
+the method will be described, operation by operation, in the order
+in which they were conducted.</p>
+
+<p><i>Sieving.</i>&mdash;The hurds for the first test were not sieved to remove
+sand and dirt, but the resulting paper was so dirty that sieving was
+practiced in all subsequent tests. The hurds were raked along a
+horizontal galvanized-iron screen, 15 feet long and 3 feet wide, with
+11&#189; meshes per linear inch, the screen being agitated by hand from
+below. Various amounts of dirt and chaff could be removed, depending
+on the degree of action, but it was found that if much more than
+3 per cent of the material was removed it consisted chiefly of fine
+pieces of wood with practically no additional sand or dirt; in most of
+the tests, therefore, the material was screened so as to remove
+<span class="pnm"><a name="Page_14" id="Page_14"> -14-
+</a></span>approximately 3 per cent. It became apparent that a finer
+screen
+would probably serve as well and effect a saving of small but good
+hurds.</p>
+
+<p><i>Cooking.</i>&mdash;Cooking is the technical term for the
+operation by which
+fibrous raw materials are reduced to a residue of cellulose pulp by
+means of chemical treatment. In these tests about 300 pounds of
+hurds were charged into the rotary with the addition of a caustic-soda
+solution, such as is regularly employed in pulp mills and which
+tested an average of 109.5 grams of caustic soda per liter, or 0.916
+pound per gallon, and averaged 85 per cent causticity. Sufficient
+caustic solution was added to furnish 25 or 30 per cent of actual
+caustic soda, calculated on the bone-dry weight of hurds in the charge.
+After closing the rotary head, it was started rotating at the rate of
+one-half revolution per minute, and in about five minutes steam at
+120 pounds per square inch was admitted at such a rate that the charge
+was heated in one hour to 170&deg; C., which is the theoretical equivalent
+of 100 pounds of steam pressure per square inch. It was found,
+however, that when the temperature reached 170&deg; C. the pressure
+was usually 115 or 120 pounds instead of 100 pounds, due to air and
+gases inclosed in the rotary. At this point the rotary was stopped
+and steam and air relieved until the pressure dropped to 100 pounds,
+or a solid steam pressure. The temperature was maintained at this
+point for the number of hours required to reduce the hurds, which
+was found to be about five, after which the rotary was stopped
+and steam relieved until the pressure was reduced to zero, when the
+head was removed and the stock was emptied into a tank underneath,
+measuring 5&#189; by 6 by 2 feet deep, where it was drained and
+washed. Samples of waste soda solution or "black liquor," which
+were taken from some of the "cooks" for analysis, were drawn while
+the stock was being thus emptied into the drainer.</p>
+
+<p><i>Determination of yield.</i>&mdash;For determining the yield of
+cellulose fiber
+the stock in the drain tank was washed with water until free from
+waste soda solution, when, by means of a vacuum pump communicating
+with the space between the bottom and the false perforated
+bottom, the water was sucked from the stock, leaving the fiber with
+a very uniform moisture content throughout its entire mass and in a
+condition suitable for removing, sampling, and weighing for a yield
+determination. Tests have shown that it is possible to sample and
+calculate the yield of bone-dry fiber within 0.05 per cent of the actual
+amount.</p>
+
+<p>It has been found that stocks from different materials vary greatly
+in their ability to mat in the drain tank, thereby enabling a good
+vacuum to be obtained, some stocks permitting a 25-inch vacuum to
+be obtained, while others will not permit more than 5 inches. For
+this reason the moisture content of the stock will vary from 65 to 85
+per cent.</p>
+
+<p><span class="pnm"><a name="Page_15" id="Page_15"> -15-
+</a></span><i>Washing and bleaching.</i>&mdash;Washing and bleaching
+were performed
+for the purpose of bleaching the brown-colored cooked stock to a
+white product, since it was regarded as highly probable that the fiber
+would be suitable for book-paper manufacture. The colored stock
+was charged into a 400-pound beating and washing engine of regular
+construction and washed about one hour, the cylinder washer being
+covered with 60-mesh wire cloth in order to remove fine loose dirt
+and chemical residues. The washer was then raised, the stock
+heated by steam to about 40&deg; C., and a solution of commercial
+bleaching powder was added in the quantity judged to be necessary,
+after which the stock was pumped to a large wooden tank, to remain
+and bleach over night. If the stock was bleached sufficiently white
+it was drained and washed from bleach residues, and if not more
+bleach was added until a good color was obtained. The bleaching
+powder used was estimated to contain 35 per cent of available
+chlorin, as this is the commercial practice, and the amount required
+was calculated to the bone-dry weight of the unbleached stock.
+More bleach is required for undercooked stock than for stock which
+is properly cooked or overcooked; therefore, the percentage of
+bleach required is an indication of the quality of the cooked stock.
+Since bleaching is usually more expensive than cooking, it is desirable
+to cook to such a degree that the consumption of bleach will be held
+within certain limits, depending on the raw materials used and the
+quality of paper to be produced. In these tests it was desirable so to
+cook the hurds that the consumption of bleach would not be over
+about 10 per cent of the fiber.</p>
+
+<p><i>Furnishing.</i>&mdash;Furnishing is the operation of charging the beating
+engine with the desired kind or kinds of fiber in the proper proportion
+and amount and the adding of such loading and sizing agents as may
+be necessary. As shown in the record of results, the furnish in these
+tests consisted of hurd stock alone and of various proportions of
+hurds, sulphite fiber, and soda fiber. The percentages to be given in
+the record of the furnishes refer to the percentage of the total fiber
+furnish, and this likewise applies to the loading and sizing agents.
+In case sulphite or soda fiber was used, the commercial product in
+the dry state was charged into the beating engine and disintegrated,
+after which the hurd stock was added in the wet condition.</p>
+
+<p><i>Beating.</i>&mdash;Beating is that operation concerning which the paper
+makers often say "there is where the paper is really made," and
+although the statement may not be literally true it contains a great
+deal of truth. It is the operation whereby the fibers are separated
+from each other, reduced to the proper lengths, and put in such a
+physical or chemical condition that they felt properly and form into a
+satisfactory sheet. It is probable that the quality of the sheet
+depends more upon the proper beater action than upon any other
+single operation. The action consists in drawing a water suspension
+of the fiber between two sets of rather blunt knives, one set being
+<span class="pnm"><a name="Page_16" id="Page_16"> -16-
+</a></span>located in the bottom of a circulating trough and the
+other set on the
+periphery of a roll revolving just above the former set of knives. It
+is during this operation that the loading and sizing agents are incorporated
+and the whole furnish is tinted either to produce a satisfactory
+white or the desired color.</p>
+
+<p>The term "paper making," as used in this publication, means the
+operation of forming the finished sheet of paper from stock which has
+been furnished and prepared in the beater. In these tests a 30-inch
+Fourdrinier machine of regular construction was used, a machine
+which often is used for the production of paper for filling regular commercial
+orders. The machine is designed to cause the water suspension
+of fibers to flow on to a traveling wire cloth, whereby the water
+drains away. More water is removed by passing the wet sheet through
+a series of press rolls, after which the sheet is dried on steam-heated
+drums and passed through polished iron rolls, which impart a finish
+to the sheet. A Jordan refining machine was employed in conjunction
+with the machine to improve further the quality of the fiber, and a
+pulp screen was used in order to remove coarse and extraneous materials
+from the fiber.</p>
+
+
+<h3>DESCRIPTION OF TESTS.</h3>
+
+<p>The nature of each complete paper test and the dependence of
+each operation on the others were such that it does not seem advisable
+to submit the results of the seven tests in tabular form. The numerous
+cooks, however, which furnished the pulp for the paper tests are
+presented in Table I in all essential detail.</p>
+
+<p>TABLE I.&mdash;Data on cooking hemp hurds.</p>
+
+
+<table summary="Data on cooking hemp hurds.">
+<colgroup class="bdit" />
+<colgroup span="2" class="midit" />
+<colgroup span="4" class="def" />
+<thead><tr>
+<td rowspan="2" class="bb">Cook No.</td>
+<td rowspan="2" class="bb">Caustic soda used (percentage of bone-dry hurds).</td>
+<td rowspan="2" class="bb">Strength of caustic soda (grams per liter).</td>
+<td rowspan="2" class="bb">Causticity  of soda solution.</td>
+<td colspan="2" class="bb">Cooking</td>
+<td rowspan="2" class="bb">Yield of bone-dry fiber (percentage of
+bone-dry unsieved hurds).</td></tr>
+<tr><td class="bb">Time (hours). </td><td class="bb">Temperature
+(&deg;C.)</td></tr></thead>
+<tbody>
+<tr><td class="bdit">293</td><td class="midit">20.6</td><td
+class="midit">100</td><td>75.3</td><td>3</td><td>166</td><td>&nbsp;</td></tr>
+<tr><td class="bdit">294</td><td class="midit">21</td><td
+class="midit">100</td><td>75.3</td><td>3</td><td>166</td><td>&nbsp;</td></tr>
+<tr><td class="bdit">295</td><td class="midit">21.6</td><td
+class="midit">100</td><td>75.3</td><td>3</td><td>166</td><td>&nbsp;</td></tr>
+<tr><td class="bdit">296</td><td class="midit">20.3</td><td
+class="midit">100</td><td>75.3</td><td>3</td><td>166</td><td>&nbsp;</td></tr>
+<tr><td class="bdit">301</td><td class="midit">21.9</td><td
+class="midit">100</td><td>82.5</td><td>4</td><td>166</td><td><a
+name="FNanchor_1_4" id="FNanchor_1_4"></a><a href="#Footnote_1_4"
+class="fnanchor">[3]</a></td></tr>
+<tr><td class="bdit">302</td><td class="midit">24.4</td><td
+class="midit">100</td><td>82.5</td><td>4</td><td>166</td><td>&nbsp;</td></tr>
+<tr><td class="bdit">303</td><td class="midit">24.2</td><td
+class="midit">100</td><td>84.3</td><td>4</td><td>166</td><td>44.1</td></tr>
+<tr><td class="bdit">304</td><td class="midit">25</td><td
+class="midit">100</td><td>84.3</td><td>4</td><td>170</td><td>39.5</td></tr>
+<tr><td class="bdit">305</td><td class="midit">25</td><td
+class="midit">100</td><td>84.3</td><td>5</td><td>170</td><td>39.4</td></tr>
+<tr><td class="bdit">306</td><td class="midit">27.8</td><td
+class="midit">107.5</td><td>84.3</td><td>4</td><td>166</td><td>36.5</td></tr>
+<tr><td class="bdit">307</td><td class="midit">26.7</td><td
+class="midit">107</td><td>84.4</td><td>5</td><td>170</td><td>38.1</td></tr>
+<tr><td class="bdit">308</td><td class="midit">26</td><td
+class="midit">107</td><td>84.4</td><td>5</td><td>170</td><td
+rowspan="2"><span class="bigbrace">&#125; </span>37.3</td></tr>
+<tr><td class="bdit">309</td><td class="midit">27.3</td><td
+class="midit">107</td><td>84.4</td><td>5</td><td>170</td></tr>
+<tr><td class="bdit">310</td><td class="midit">27.1</td><td
+class="midit">107</td><td>84.4</td><td>6</td><td>170</td><td>37.0</td></tr>
+<tr><td class="bdit">311</td><td class="midit">27.2</td><td
+class="midit">107</td><td>84.4</td><td>6</td><td>170</td><td>36.8</td></tr>
+<tr><td class="bdit">312</td><td class="midit">28.3</td><td
+class="midit">116.5</td><td>85.5</td><td>5</td><td>170</td><td>35.9</td></tr>
+<tr><td class="bdit">313</td><td class="midit">29.1</td><td
+class="midit">113.1</td><td>84.9</td><td>5</td><td>170</td><td
+rowspan="2" valign="middle"><span class="bigbrace">&#125;
+</span>35.2</td></tr>
+<tr><td class="bdit">314</td><td class="midit">29.1</td><td
+class="midit">109</td><td>83.9</td><td>5</td><td>170</td></tr>
+<tr><td class="bdit">315</td><td class="midit">29.4</td><td
+class="midit">109</td><td>83.9</td><td>5</td><td>170</td><td>34.9</td></tr>
+<tr><td class="bdit">316</td><td class="midit">30</td><td
+class="midit">109.5</td><td>84.9</td><td>5</td><td>170</td><td>37.2</td></tr>
+<tr><td class="bdit">317</td><td class="midit">29.6</td><td
+class="midit">109.5</td><td>84.9</td><td>5</td><td>170</td><td>37.0</td></tr>
+<tr><td class="bdit">318</td><td class="midit">29.6</td><td
+class="midit">107</td><td>84.8</td><td>5</td><td>170</td><td>37.7</td></tr>
+<tr><td class="bdit">319</td><td class="midit">29.4</td><td
+class="midit">107.5</td><td>84.2</td><td>5</td><td>170</td><td
+rowspan="2" valign="middle"><span class="bigbrace">&#125;
+</span>35.4</td></tr>
+<tr><td class="bdit">320</td><td class="midit">29.3</td><td
+class="midit">107.5</td><td>84.2</td><td>5</td><td>170</td></tr></tbody>
+</table>
+
+
+<p><span class="pnm"><a name="Page_17" id="Page_17"> -17-
+</a></span>Discussion of the various cooks will be given in
+connection with
+the descriptions of those paper tests in which the stocks from the cooks
+were used, since a stock and its cooking condition can be judged adequately
+only after it has been put through the various processes and
+into the finished sheet of paper.</p>
+
+<p>The first test consisted in making four separate cooks, Nos. 293, 294,
+295, and 296, of approximately 300 pounds each, dividing the total
+stock into two parts and making two separate paper tests. The
+first test was made primarily in order to learn some of the qualities
+and characteristics of the stock and to get the machinery equipment
+adjusted properly. The yield of fiber was not determined in this
+preliminary test, since the knowledge of it was not essential at this
+stage of the work. The cooked stock which was emptied into the
+drainer to be washed free from black liquor was composed largely
+of whole pieces of hurds, but only slight pressure between the fingers
+was required to crush the pieces. In the case of wood, this condition
+ordinarily would indicate undercooking, but might not in the case of
+hurds. Further observation on the action of the cooked stock during
+subsequent processes was necessary in order to judge of its quality or
+the suitability of the cooking conditions. The total cooked stock,
+about 500 pounds, was divided into two portions of 200 and 300
+pounds, respectively, and work was continued on them separately.
+The 200-pound test, designated as run No. 135, was put into a 350-pound
+washing engine, washed one hour, and given a total light brush
+of 2&#188; hours. The washing removed a great amount of dirt, but the
+engine did not reduce the hurd stock as much as was desired. After
+heating the stock in the beater to 40&deg; C., it was bleached with
+bleaching-powder
+solution, 94 gallons at 0.418 pound bleach per gallon,
+equivalent to 19.7 per cent of the fiber. This percentage of bleach is
+regarded as too high for stock intended for book-paper manufacture,
+and subsequent cooks therefore were given harder treatment in order
+to reduce this figure. After draining and washing free from bleach
+residues, the stock was furnished in the beater with 13 per cent of
+clay, 1 per cent of resin size, and 2.5 per cent of alum, was tinted
+blue, given one hour's light brush, and pumped to the stock chest.
+When running it on the paper machine, the Jordan refiner seemed
+to have little effect in reducing shives of undertreated wood, which
+indicated further the necessity of harder cooking. The furnish acted
+well on the paper machine at 70 feet per minute, but appeared somewhat
+too "free" on the wire. The paper produced from this test is of
+very low quality, due to the improper preparation of the stock, lack
+of sufficient bleach, the use of too small an amount of blue tinting, and
+the presence of an excessive amount of dirt, sand, and shives. The
+excessive amount of dirt and sand suggested the sieving of the hurds
+before cooking, and this was performed in all subsequent cooks.<span
+class="pnm"><a name="Page_18" id="Page_18"> -18- </a></span>
+The finish of the sheet is very poor, due to the fact that the calender
+stack was composed of very light rolls which did not have a  satisfactory
+surface, yet the stack is known to be able to produce better finishes
+if the proper stock is employed.</p>
+
+<p>Run No. 136 was made on the 300-pound portion of stock from
+cooks Nos. 293, 294, 295, and 296, and in essentially the same manner
+as run No. 135. The stock was washed one hour, but given a brush
+of three hours, and this brush was harder than in run No. 135.
+Bleach to the extent of 19.8 per cent of the fiber was used, assisted
+by 1 pint of oil of vitriol, and the resulting color was an improvement
+over that of run No. 135. After adding 13.5 per cent of clay and
+sizing with 1.1 per cent of resin size, the furnish was given one-half
+hour's light brush, tinted, and run on the machine, which was set
+at 70 feet per minute. This stock acted better on the wire and gave
+no trouble on the machine, but it still seemed to be impossible to
+reduce the wood shives by manipulation of the Jordan refiner. The
+resulting sheet is an improvement over that produced by No. 135,
+but is far from satisfactory.</p>
+
+<p>Run No. 138 was made from hurds which, as in all subsequent tests,
+were sieved on a 11&#189;-mesh wire screen until practically all the loose
+dirt and sand was removed, which operation caused a loss averaging
+3 per cent of the hurds. Stock from cooks Nos. 302 and 303 was
+used for this run and the increased amount of caustic soda and the
+increase in the time of cooking gave a stock of better appearance than
+those of preceding tests.</p>
+
+<p>The stock, amounting to 231 pounds dry weight, was washed and
+at the same time given a light brush for one hour only, after which
+it was bleached with 17 per cent of bleach without the addition of
+acid. Since the preceding paper appeared somewhat weak and had
+a low tearing quality, it was decided to use a furnish of 15.7 per cent
+bleached sulphite and 84.3 per cent bleached hemp-hurd stock.
+After loading with 13.1 per cent of clay and sizing with 1.1 per cent
+of resin size, the furnish was given a medium brush for one hour,
+tinted, and run on to the machine at 70 feet per minute. The stock
+gave no trouble on the machine, but it was impossible to judge the
+effect of the Jordan refiner, because through an oversight the machine
+chest had not been cleaned since previous use on an unbleached
+yucca material. It is believed, however, that sheet No. 138 shows
+improvement in the preparation of the hurd pulp.</p>
+
+<p>Run No. 139 was made from stock of cooks Nos. 304 and 305,
+in which still more caustic soda was employed and the time and temperature
+of cooking were increased, giving a yield of total fiber of
+40.7 per cent of the sieved or 39.4 per cent of the unsieved hurds.
+The cooked stock still seemed to be undertreated, but it must be
+remembered that in working with any new raw material it is impos<span
+class="pnm"><a name="Page_19" id="Page_19"> -19- </a></span>sible
+to know in advance how the properly treated material should
+appear. A washing of one hour was given while the roll was lowered
+from a light to a medium brush, after which the stock was bleached
+with 17.1 per cent of bleach without the aid of acid. Since sulphite
+stock improved the previous paper, this bleached stock was used
+in a furnish of 16.6 per cent sulphite and 83.4 per cent hurds, loaded
+with 16.7 per cent clay, sized with 1.4 per cent resin size, given a
+medium brush of two hours, tinted, and run on to the machine at
+70 feet per minute. The Jordan refiner seemed to have little effect
+in reducing shives and was therefore left "just off." No trouble was
+experienced with the stock on the machine, and the sheet is an
+improvement over previous samples.</p>
+
+<p>Run No. 140 was made from cooks Nos. 306 and 307, in which
+more caustic soda was employed than in any previous cooks and at a
+higher concentration, the fiber yields of which averaged 37.3 per cent
+of the unsieved hurds. Not much improvement was apparent in
+the cooked stock, in spite of the increased severity of cooking. The
+stock was washed and given a medium brush for one hour, bleached
+with 11.9 per cent of bleach, assisted with one-half pint of oil of
+vitriol, and made into a furnish of 14.9 per cent sulphite and 85.1
+per cent of the hurd stock. After loading with 14.7 per cent of clay
+and sizing with 1.28 per cent of resin size, the furnish was given two
+hours' medium brush, tinted, and run on to the paper machine at
+70 feet per minute. Again the Jordan refiner did not seem to reduce
+the wood shives sufficiently, and it was left "just off." No trouble
+which could be attributed to the stock was experienced on the paper
+machine. The color of the resulting paper is due to the use of too
+little blue in tinting and probably in some measure to the use of too
+low a percentage of bleach.</p>
+
+<p>Run No. 141 was made from the stock of cooks Nos. 308 and 309
+in practically the same manner as run No. 140. The stock was
+washed and brushed one hour, bleached (the record of the amount
+of bleach was lost), made into a furnish of 14.7 per cent of sulphite
+and 85.3 per cent of hurd stock, loaded with 14.9 per cent of clay,
+sized with 1.26 per cent of resin size, given one hour at a medium
+brush, tinted, and run on to the machine. The Jordan refiner was
+able to reduce the wood shives to a somewhat greater degree than in
+previous runs and was held at a medium brush. The stock acted
+well on the machine and produced a sheet of better quality than any
+preceding, with the exception of the color, which was due to using too
+small a quantity of blue.</p>
+
+<p>Among the cooks made for run No. 142 are Nos. 312 and 313, in
+which the concentration of the caustic soda was raised to 113 and
+116 grams per liter and the percentage employed was also increased.
+In spite of these increases the stock from these two cooks did not
+<span class="pnm"><a name="Page_20" id="Page_20"> -20-
+</a></span>show any appreciable improvement when dumped from the
+rotary.
+Stock from cooks Nos. 310, 311, and 312 was given a medium brush
+and washing of one hour, bleached with 10.95 per cent of bleach,
+made into a furnish consisting of 15.2 per cent of sulphite and 84.8
+per cent of hurd stock, loaded with 15.2 per cent of clay, sized with
+1.28 per cent of resin size, given a medium brush for one hour, tinted,
+and pumped to the stock chest. Stock from cooks Nos. 313 and 314
+was treated in exactly the same manner, except that 11.4 per cent
+of bleach was used. It was pumped to the stock chest and mixed
+with the furnished stock from cooks Nos. 310, 311, and 312. A
+medium Jordan brush was given the stock and it acted well on the
+paper machine, which was speeded to 75 feet per minute. There
+seems to be a tendency in the hurd stock to crush a little at the
+"dandy roll," and although the marks are not removed by the calender
+stack which was employed in those tests it was found that one
+"nip" on the supercalenders renders them practically imperceptible
+and it is believed that the proper size and weight of calender stack
+would entirely remove these marks. All of the papers produced
+up to this point are somewhat lacking in the bulk desired in a book
+paper; therefore, in the two following runs soda-poplar stock was
+included in the furnishes.</p>
+
+<p>In run No. 143 stock from cooks Nos. 315 and 316 was given a
+medium brush and washing for one hour and was medium brushed
+for one hour more, bleached with 11.3 per cent of bleach assisted
+with one-half pint of oil of vitriol, made into a furnish of 16.5 per
+cent of sulphite, 22.3 per cent of soda poplar, and 61.2 per cent of
+hurd stock, loaded with 22 per cent of clay, sized with 1.38 per cent
+of resin size, given a hard brush for one hour, tinted very strongly,
+and pumped to the stock chest. This stock was beaten to a greater
+extent than in previous runs. The stock was run on the paper
+machine at a speed of 75 feet per minute, using a medium Jordan
+brush, and no trouble whatsoever was experienced. Not over 2
+pounds of "broke" was produced during the whole run, and that
+was in the "threading" of the machine. The color of the sheet is
+entirely satisfactory for many uses. The wood shives apparently
+were reduced to a satisfactory degree. Experienced paper makers
+commented very favorably on the running of this furnish and the
+quality of the paper produced.</p>
+
+<p>Run No. 144 was intended as a duplicate of run No. 143. Stock
+from cooks Nos. 317 and 318 was given a medium brush and washing
+for one hour and a further medium brush of one hour, bleached with
+11.4 per cent of bleach, and made into a furnish composed of 15.5
+per cent of sulphite, 23.5 per cent of soda poplar, and 61 per cent of
+hurd stock, loaded with 21.4 per cent of clay, sized with 1.17 per cent
+of resin size, hard brushed for one hour, tinted by the expert colorer
+<span class="pnm"><a name="Page_21" id="Page_21"> -21- </a></span>of
+the company, and pumped to the stock chest. Stock from cooks
+Nos. 319 and 320 was treated in exactly the same manner except
+that the stock was bleached with 12.1 per cent of bleach and pumped
+to the stock chest to mix with the former furnish. The stock acted
+very well on the machine, which was speeded to 75 feet per minute,
+with the Jordan refiner set at a medium brush. The sheet is as good,
+if not better, than that of run No. 143, and it is also a good illustration
+of the extent to which proper tinting will enhance the general
+appearance of a paper. The poor appearance of the samples of
+previous runs is due largely to lack of proper tinting. Various
+degrees of whiteness, however, are demanded by the trade.</p>
+
+
+<h3>COMPARISON OF THE TESTS AND COMMERCIAL PRACTICE.</h3>
+
+<p>In work of this nature and on this scale it is practically impossible
+to arrive at a cost figure which would be susceptible of commercial
+interpretation, and in this preliminary publication nothing will be
+attempted beyond a comparison of the process used with the hurds
+with that process commercially applied to poplar wood. The process
+last used with the hurds should not be regarded as final, satisfactory,
+or most suitable, as it has been shown that progress was being made
+up to the conclusion of the work.</p>
+
+<p>In comparing the method of using hurds with the method of handling
+poplar wood, a difference is apparent on the delivery of raw
+material at the mill. Ordinarily, poplar is received at the mill in
+the form of logs about 4 feet in length, which may be stored in piles
+in the open. Hurds very likely would be received baled, and it would
+seem advisable to store them under cover for the following reasons:
+(<i>a</i>) Baled hurds would probably absorb and retain more water
+during wet weather than logs of wood, thereby causing excessive
+dilution of the caustic liquor; (<i>b</i>) prolonged excessive dampness
+might create heating and deterioration unless the hemp were properly
+retted; (<i>c</i>) wet hurds could not be sieved free from sand and chaff.
+Should further work show that the first two reasons need not be
+taken into consideration, the third objection might be overcome by
+sieving the hurds before baling. Even then, it is probable that
+baled hurds stored in the open would accumulate and retain considerable
+dirt from factory chimneys, locomotives, and wind.
+Checked pulp wood exposed in the open invariably suffers from
+these causes.</p>
+
+<p>In the preparation of the raw material for the digesters there is
+likewise considerable difference between hurds and poplar wood.
+The former apparently requires only a moderate sieving to remove
+sand and chaff, which operation doubtless would require only a
+small amount of labor and the installation of some simple machinery
+of low power consumption. In preparing poplar for digestion, the
+<span class="pnm"><a name="Page_22" id="Page_22"> -22-
+</a></span>4-foot logs are chipped by a heavy, comparatively
+expensive chipper
+of high power consumption, after which the chips are sorted by
+sieving, the large pieces being rechipped. There would be a noteworthy
+difference in the installation, operating, and depreciation
+costs of the two equipments, and this difference would counterbalance
+to a considerable extent the difference in cost of raw material
+storage.</p>
+
+<p>It is possible that in the use of the chip loft more care would have
+to be exercised in using hurds because of the tendency of the bast
+fiber to cause lodgments, but this should not be considered a serious
+difficulty.</p>
+
+<p>The weight of hurds which are capable of being charged into a
+rotary is a decidedly unfavorable factor. The weight of a cubic
+foot of hurds varies somewhat with the proportion of bast fiber,
+but averages about 5.4 pounds, which, compared with a cubic foot
+of poplar chips at 8.93 pounds, represents a digester charge of 60.5
+per cent of the weight of a poplar-wood charge, or, in terms of fiber
+capacity, the hurds charge would yield 38.6 per cent as much fiber
+as the wood charge. The hurds upon being baled for transportation
+may be broken and crushed to such a degree that the weight
+of the charge may be increased, and it might be found possible to
+increase the charge weight by steaming or by the employment of
+tamping devices. This small weight of charge constitutes one of the
+most serious objections to the use of hurds in paper manufacture.</p>
+
+<p>In those tests in which the most satisfactory results were obtained,
+the cooking conditions were 29.5 per cent of caustic soda at a concentration
+of 107 grams per liter and a causticity of 84.0 per cent acting
+at a temperature of 170&deg; C. for five hours, or a total time of seven
+hours. The steam condensation in the rotary used for these tests
+was abnormally high, due to the fact that the steam supply pipe was
+uncovered for a considerable distance and the rotary was entirely
+uncovered. It is believed, therefore, that a larger amount of caustic
+was necessary than would otherwise have been the case. This
+belief is strengthened by the quality of the waste liquor from one of
+the later cooks, which gave on analysis 16.85 grams per liter of free
+caustic soda and showed a causticity of 27.75 per cent. These data
+show that only 67.3 per cent of the total caustic employed was actually
+consumed in the cooking operation, which percentage is lower
+than obtains in practice. The stock from this cook was bleached
+with 11.5 per cent of bleach. But even as the figures stand, the
+comparison with poplar cooking practice is as follows: 29.5 per cent
+caustic soda used as against 22 to 25 per cent; 107 grams per liter
+as against 100 to 110; 84 per cent causticity is little different than
+obtains in practice; 170&deg; C. is about commercial practice; five hours
+at pressure as against four to six hours; seven hours' total time as
+<span class="pnm"><a name="Page_23" id="Page_23"> -23-
+</a></span>against possibly six to eight hours; 11.5 per cent bleach
+as against
+8 to 10 per cent. Thus, it is evident that the cooking conditions
+employed were slightly more severe and expensive than those in
+commercial use with poplar wood.</p>
+
+<p>The yield of total fiber obtained from the hurds may be placed at
+35 per cent of bone-dry fiber calculated on the bone-dry weight of
+hurds used, or 33.1 per cent of air-dry fiber calculated on air-dry
+hurds. The yield of bleached fiber was not determined in this preliminary
+work, but may be safely estimated as 30 per cent, which is
+low when compared with a yield of about 47 per cent of bone-dry
+bleached fiber from bone-dry poplar wood. It is believed quite
+possible that satisfactory cooking conditions may be found which will
+give a higher yield than was obtained during these tests. The stock
+should be classed as easy bleaching, and 11.4 per cent of bleach is a
+satisfactory figure, although a little high.</p>
+
+<p>As to beating cost, in the last two and most satisfactory tests the
+total washing and beating time was three hours, which may be about
+an hour more than ordinarily is used in making papers of this grade,
+although the practice varies to a considerable extent.</p>
+
+<p>In regard to furnish, there is such a diversity of practice that it is
+difficult to make a comparison, but if the hurd stock can be produced
+as cheaply as soda-poplar stock, the furnish used in these last two
+tests should be regarded as satisfactory to the book and printing
+paper manufacturer.</p>
+
+<p>The finish of the paper was not all that might be desired, but that
+was due almost entirely to the calender stack available for the work,
+which was composed of nine light rolls, many of which were about
+6 inches in diameter and which had not been reground for some time.
+ From a small test on a large calender stack it was readily shown that
+the paper produced is capable of taking a satisfactory finish.</p>
+
+<p>This comparison, satisfactory in many respects, develops two
+factors which are decidedly unfavorable to hemp hurds, namely, raw-material
+storage and digester capacity, and they must be taken into
+full account in considering the paper-making value of this material,
+although it should be recognized that investigation may result in the
+material improvement of these conditions. Moreover, it is not at all
+improbable that further investigation would develop more satisfactory
+treating conditions and more suitable furnish compositions, and
+the belief in this possibility is strengthened by the fact that material
+progress was being made at the conclusion of this preliminary work.</p>
+
+<p>Calculations on the raw material and acreage for a permanent supply
+for a pulp mill producing 25 tons of fiber a day for 300 days per
+annum, or 7,500 tons per annum, give the comparison between hurds
+and wood shown in Table II.</p>
+
+<p><span class="pnm"><a name="Page_24" id="Page_24"> -24-
+</a></span><span class="smcap">Table II</span>.&mdash;<i>Comparison
+between wood and hemp hurds</i>.</p>
+
+<table summary="Comparison between wood and hemp hurds" border="1"
+cellpadding="4"><thead>
+<tr><td rowspan="2" align="center"> Material. </td><td rowspan="2"
+align="center"> Pulp yield. </td><td rowspan="2" align="center">Raw
+material required per  year.</td>
+<td rowspan="2" align="center">Annual  growth   per acre.  </td><td
+colspan="2" align="center">Acres required for sustained
+supply.</td></tr>
+<tr><td> For 25-ton mill. </td><td> For 1 ton of fiber per
+year.</td></tr></thead><tbody>
+
+<tr><td align="center">Wood       </td><td> Two cords yield 1 ton of
+fiber. </td><td> 15,000 cords </td><td> 0.37 cord (about  0.55 ton).
+</td><td>     40,500 </td><td>    5.4</td></tr>
+<tr><td align="center">Hemp hurds </td><td> One ton  yields 600
+pounds of fiber.    </td><td> 25,000 tons  </td><td> 2.5 tons
+</td><td>     10,000 </td><td>    1.33</td></tr>
+</tbody></table>
+
+<p>The most important point derived from this calculation is in regard
+to areas required for a sustained supply, which are in the ratio of 4
+to 1. Every tract of 10,000 acres which is devoted to hemp raising
+year by year is equivalent to a sustained pulp-producing capacity of
+40,500 acres of average pulp-wood lands. In other words, in order to
+secure additional raw material for the production of 25 tons of fiber
+per day there exists the possibility of utilizing the agricultural waste
+already produced on 10,000 acres of hemp lands instead of securing,
+holding, reforesting, and protecting 40,500 acres of pulp-wood land.</p>
+
+<p>The annual growth per acre, although decidedly in favor of hurds,
+has little bearing on the project, because the utilization of the hurds
+is subordinate to the raising of hemp, and the paper manufacturer
+probably could afford to use only hurds resulting from the hemp
+industry.</p>
+
+
+<h3>PHYSICAL TESTS OF THE PAPERS PRODUCED.</h3>
+
+<p>Samples of paper produced in the seven tests were submitted to
+the Leather and Paper Laboratory of the Bureau of Chemistry. The
+report of that bureau on its tests is given in Table III.</p>
+
+<p><span class="smcap">Table III</span>.&mdash;<i>Report of the
+Leather and Paper Laboratory of the Bureau of Chemistry on
+papers manufactured from hemp hurds</i>.</p>
+
+<table summary="Report of the Leather and Paper Laboratory of the
+Bureau of Chemistry on
+papers manufactured from hemp hurds"><thead><tr><td rowspan="2"
+class="bb">Laboratory No.</td><td rowspan="2" class="bb">Run
+No.</td><td rowspan="2" class="bb">Ash.</td>
+<td colspan="2" class="bb">Weight of 500 sheets.</td><td rowspan="2"
+class="bb">Thickness, 1/10000.</td>
+<td colspan="3" class="bb">Strength (Mullen). </td><td rowspan="2"
+class="bb">Strength factor (25 by 40, 500). </td>
+<td colspan="2" class="bb">Folding endurance.</td></tr>
+<tr><td class="bb">25 by 38.</td><td class="bb">25 by 40.</td><td
+class="bb">Average.</td><td class="bb">Maximum.</td><td
+class="bb">Minimum.</td>
+<td class="bb">Longitudinal.</td><td class="bb">Transverse.</td></tr></thead>
+<tbody>
+<tr><td>&nbsp;</td><td>&nbsp;</td><td><i>Per&nbsp;ct.</i></td><td><i>Pounds.</i></td><td><i>Pounds.</i></td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td></tr>
+<tr><td>31570</td><td>144</td><td>13.9</td><td>48</td><td>50&#189;</td><td>33</td><td>15.0</td><td>17.0</td><td>11.0</td><td>0.30</td><td>5</td><td>3</td></tr>
+<tr><td>31571</td><td>143</td><td>14.5</td><td>49</td><td>51&#189;</td><td>35</td><td>14.0</td><td>14.0</td><td>13.0</td><td>.28</td><td>4</td><td>4</td></tr>
+<tr><td>31573</td><td>141</td><td>10.9</td><td>48</td><td>50&#189;</td><td>38</td><td>19.0</td><td>20.0</td><td>19.0</td><td>.37</td><td>8</td><td>6</td></tr>
+<tr><td>31572</td><td>142</td><td>9.5</td><td>49&#189;</td><td>52</td><td>33</td><td>16.5</td><td>18.0</td><td>11.0</td><td>.33</td><td>10</td><td>8</td></tr>
+<tr><td>31574</td><td>140</td><td>11.4</td><td>42</td><td>44</td><td>30</td><td>14.5</td><td>16.0</td><td>13.0</td><td>.33</td><td>7</td><td>6</td></tr>
+<tr><td>31575</td><td>139</td><td>13.4</td><td>55</td><td>58</td><td>40</td><td>19.5</td><td>20.0</td><td>17.0</td><td>.34</td><td>8</td><td>5</td></tr>
+<tr><td>31576</td><td>138</td><td>10.4</td><td>56</td><td>59</td><td>40</td><td>20.0</td><td>20.0</td><td>19.0</td><td>.34</td><td>23</td><td>15</td></tr></tbody></table>
+
+<p>There is no system of numerically recording the general appearance
+and "look through" of a paper, but it can be stated that only papers
+<span class="pnm"><a name="Page_25" id="Page_25"> -25-
+</a></span>Nos. 143 and 144 are satisfactory in these respects, the
+other samples
+being more or less thickly specked with shives. The general
+character and tests of these papers correspond very closely with
+No. 1 machine-finish printing paper, according to the specifications
+of the United States Government Printing Office, which call for a
+sheet not exceeding 0.0035 inch in thickness, strength not less than
+12 points, free from unbleached or ground wood pulp, and ash not
+over 10 per cent. The strength factor of such papers is about 0.28.
+The ash should not be over 10 per cent for this grade of paper, but
+in spite of the larger amount used the physical tests are sufficiently
+high. It is to be noted that the physical tests of samples Nos. 138
+to 142, inclusive, are higher than in Nos. 143 and 144, in which 23
+per cent of soda poplar was used, which shows clearly that hemp-hurd
+stock imparts strength and folding endurance to a greater
+extent than does soda-poplar stock. From these preliminary tests it
+would be concluded, therefore, that hemp-hurd stock acts similarly
+to soda-poplar stock, but will produce a somewhat harsher and
+stronger sheet and one of higher folding endurance. Undoubtedly,
+there is more dirt in the samples than would be tolerated by the
+trade, but this was to be expected, since in this preliminary work the
+raw material was sieved by hand screens instead of by automatic
+machines which would sieve more thoroughly.</p>
+
+
+<h3>CONCLUSIONS.</h3>
+
+<p>There appears to be little doubt that under the present system of
+forest use and consumption the present supply can not withstand
+the demands placed upon it. By the time improved methods of
+forestry have established an equilibrium between production and
+consumption, the price of pulp wood may be such that a knowledge
+of other available raw materials may be imperative.</p>
+
+<p>Semicommercial paper-making tests were conducted, therefore, on
+hemp hurds, in cooperation with a paper manufacturer. After
+several trials, under conditions of treatment and manufacture which
+are regarded as favorable in comparison with those used with pulp
+wood, paper was produced which received very favorable comment
+both from investigators and from the trade and which according to
+official tests would be classed as a No. 1 machine-finish printing
+paper.</p>
+
+<hr style="width: 65%;" />
+
+<h4>Footnotes</h4>
+
+<div class="footnote"><p><a name="Footnote_1_2" id="Footnote_1_2"></a>
+<a href="#FNanchor_1_2"><span class="label">[1]</span></a> For descriptions of
+investigations of some of these crops, see the list of publications
+at the end of this
+bulletin.</p></div>
+<div class="footnote"><p><a name="Footnote_1_3"
+id="Footnote_1_3"></a><a href="#FNanchor_1_3">
+<span class="label">[2]</span></a> For a description of this rotary
+digester, see Brand, C. J., and Merrill, J. L., Zacaton as a
+paper-making
+material, U. S. Dept. Agr. Bul. 309, p. 28, 1915.</p></div>
+
+<div class="footnote"><p><a name="Footnote_1_4" id="Footnote_1_4"></a>
+<a href="#FNanchor_1_4"><span class="label">[3]</span></a>Stock not
+used; dirty.</p></div>
+
+
+
+
+
+
+
+
+
+<pre>
+
+
+
+
+
+End of the Project Gutenberg EBook of Hemp Hurds as Paper-Making Material, by 
+Lyster H. Dewey and Jason L. Merrill
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