Bongkot - A Potential Source of Nonwood Fibre for Papermaking

<body topmargin=0 leftmargin=0 marginheight=0 marginwidth=0> <table cellpadding=0 cellspacing=0 border=0><tr> <td valign="top" rowspan="2" width=140 BGCOLOR="#009900" TEXT="#F7F7FF"> <div> <IMG SRC="1045a310.jpg" border=0 width="90" height="49" ALT="HC logo" ALIGN="BOTTOM" HSPACE="0" VSPACE="0"></div> <bR> <bR> <div> <A HREF="index.htm" TARGET="_top" TITLE="HurterConsult Incorporated">Home</A></div> <div> <A HREF="philosophy.htm" TARGET="_top" TITLE="Our Process Technology Design Philosoph">Philosophy</A></div> <div> <A HREF="expertise.htm" TARGET="_top" TITLE="Our Areas of Expertise">Expertise</A></div> <div> <A HREF="services.htm" TARGET="_top" TITLE="Our Scope of Services">Services</A></div> <div> <A HREF="cellulosic_biofuels.htm" TARGET="_top" TITLE="Cellulosic Biofuel">Cellulosic Biofuel</A></div> <div> <A HREF="references.htm" TARGET="_top" TITLE="HurterConsult Project References">References</A></div> <div> <A HREF="info.htm" TARGET="_top" TITLE="HurterConsult News Info"><B>News & Info</B></A></div> <div> <A HREF="links.htm" TARGET="_top" TITLE="HurterConsult Favorite Links">Links</A></div> <div> <A HREF="contact.htm" TARGET="_top" TITLE="Contact HurterConsult">Contact Us</A></div> <div> <A HREF="legal_notice.htm" TARGET="_top" TITLE="Legal Notice About This Web Site">Legal Notice</A></div> <bR> <div> <A HREF="http://www.adobe.com/products/acrobat/readstep2.html" TARGET="_top" TITLE="http://www.adobe.com/products/acrobat/re"><IMG SRC="2f6581f0.png" border=0 width="88" height="31" ALIGN="BOTTOM" HSPACE="0" VSPACE="0"></A></div> </td> <td valign="top" colspan=2 height=100 style=" border-bottom: 1px solid #555555;" BGCOLOR="#009900" TEXT="#F7F7FF"> <div> <B>HurterConsult Incorporated</B></div> <div> <B>Consulting Engineers - Nonwood, Wood & Recycled Fiber Pulp, Paper, Fiberboard & Cellulosic Biofuel Projects</B></div> </td> </tr><tr> <td valign="top" height=380 width="100%" colspan=2 BGCOLOR="#FFFFFF" TEXT="#080000"> <div> <A HREF="info.htm" TARGET="_top" TITLE="HurterConsult News Info"><B>News & Info</B></A><B>  /  </B><A HREF="tcf_sisal_pulp_2.htm" TARGET="_top" TITLE="TCF Bleached Sisal Market Pulp: Potentia"><B>Up</B></A><B>  /  </B><A HREF="contact.htm" TARGET="_top" TITLE="Contact HurterConsult"><B>Contact Us</B></A></div> <div> <B>  <FORM method=GET action="http://www.google.com/search" TARGET=_blank> <input type=hidden name=ie value=UTF-8> <input type=hidden name=oe value=UTF-8> <TABLE bgcolor="#FFFFFF"><tr><td> <A HREF="http://www.google.com/" TARGET=_blank> <IMG SRC=http://www.google.com/logos/Logo_40wht.gif border="0" ALT="Google" align="middle"></A> </td> <td> <INPUT TYPE=text name=q size=31 maxlength=255 value=""> <INPUT type=submit name=btnG VALUE="Google Search"> <input type=hidden name=domains value="www.HurterConsult.com"><br><input type=radio name=sitesearch value=""> Search WWW <input type=radio name=sitesearch value="www.HurterConsult.com" checked> Search www.HurterConsult.com <br> </font> </td></tr></TABLE> </FORM>   </B></div> <bR> <div> <B>Bongkot - A Potential Source of Nonwood Fibre for Papermaking</B></div> <bR> <div> By Robert W. Hurter, P. Eng., MBA, President, HurterConsult Incorporated, and </div> <div> Hassan Loutfi, P. Eng., President, Paradigm Technology Inc.</div> <bR> <div> Presented at the 1997 TAPPI PULPING CONFERENCE, San Francisco, California, and published in the Conference Proceedings, Volume 2, pages 817 - 819.</div> <bR> <div>  <a href="HTMLobj-860/Bongkot_1997.pdf"><img align="bottom" border="0" width="153" height="17" alt="Bongkot - A Potential Source of Nonwood Fibre for Papermaking" src="HTMLobj-860/download_pdf_LG_LARGE.gif"></a>  <FONT SIZE="2" COLOR="#111111" FACE="Arial" >(requires Adobe Reader).</FONT></div> <bR> <div> <B>ABSTRACT</B></div> <bR> <div> Throughout Southeast Asia, the oil palm, Elaeis guineensis, is grown in large plantations for its fruit from which two valuable oils are obtained.  The fruit consists of a fibrous casing commonly known as bongkot which contains the plant seeds.  The orange-yellow pericarp yields palm oil which is used in soap making.  The endosperm yields a white, pleasantly flavored oil known as palm-kernel oil, also used in making soaps.  The fibrous casing, or bongkot, is either burned or spread among the palm trees.  Alternative value-added uses for the bongkot are being considered, one of which is its suitability as a raw material for pulp and paper production.</div> <bR> <div> This paper summarizes a literature survey of studies published on the subject of using bongkot as a source of nonwood plant fibre for papermaking.  The studies explored raw material preparation and pulp quality using the Kraft, TMP, and NSSC processes.  An analysis of the three processes shows that bongkot produces pulp that has high strength but low brightness with small black spots.  The pulp, however, is suitable for producing a variety of products.  The results indicate that using bongkot is both  technologically and commercially feasible.</div> <bR> <div> <B>INTRODUCTION</B></div> <bR> <div> Our planet is blessed with an unimaginable variety of plant life of which only a small portion has been studied for possible uses in industry.  In cases where a specific plant species is found to be able to exist in large amounts and where it can be easily harvested, one possible consideration is its use as a fibre source for the pulp and paper industry.  One such plant species is found in the Southeast Asian country of Indonesia: oil palm trees.</div> <bR> <div> Indonesia has a tropical climate that permits the growing of various cash crops.  One such crop is oil palm trees, which have an economic life of 25 to 30 years.  Harvested from these trees is a fruit with seeds that can be pressed for their valuable oil.</div> <bR> <div> The fruit that contains these seeds has a fibrous casing (bongkot) which has been the subject of various studies aimed at determining its pulping properties.  At present, bongkot is either burned for power, or shredded and spread among the palm trees.  The total area used by the various palm tree plantations is about 1.6 million ha, which is spread over sixteen provinces of three islands.</div> <bR> <div> <B>BONGKOT COMPOSITION</B></div> <bR> <div> As seen in table 1, bongkot fibres are short.  Even so, the fibre length and L/D ratio of bongkot fibres makes them suitable for paper making [1] based on the fact that bongkot fibres are comparable to commercial temperate hardwoods.</div> <bR> <div> <B>Table 1.   </B>Mean Dimensions of Bongkot Fibres</div> <div> <TABLE BORDER="2" CELLPADDING="1" CELLSPACING="1" WIDTH="414" BORDERCOLORLIGHT="#C0C0C0" BORDERCOLORDARK="#808080" FRAME="BOX" RULES="ALL" HSPACE="0" VSPACE="0" > <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> Fibre Length  (L)</div> </tD> <tD VALIGN=TOP WIDTH="98"><div> mm</div> </tD> <tD VALIGN=TOP WIDTH="98"><div> 0.82</div> </tD> </tR> <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> Fibre Diameter (D)</div> </tD> <tD VALIGN=TOP WIDTH="98"><div> microns</div> </tD> <tD VALIGN=TOP WIDTH="98"><div> 27.0</div> </tD> </tR> <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> L/D Ratio</div> </tD> <tD VALIGN=TOP WIDTH="98"><IMG BORDER="0" SRC="1x1.gif" HEIGHT="18" ALIGN="bottom" WIDTH="98" HSPACE="0" VSPACE="0"></tD> <tD VALIGN=TOP WIDTH="98"><div> 30.3</div> </tD> </tR> </TABLE></div> <bR> <div> Table 2 gives the chemical composition of bongkot which reveals that it has a high pentosan and low lignin content that is similar to straw and grasses.</div> <bR> <div> <B>Table 2.   </B>Chemical Composition of Bongkot Fibres</div> <div> <TABLE BORDER="2" CELLPADDING="1" CELLSPACING="1" WIDTH="411" BORDERCOLORLIGHT="#C0C0C0" BORDERCOLORDARK="#808080" FRAME="BOX" RULES="ALL" HSPACE="0" VSPACE="0" > <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> Holocellulose</div> </tD> <tD VALIGN=TOP WIDTH="198"><div> 70.0%</div> </tD> </tR> <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> Alphacellulose</div> </tD> <tD VALIGN=TOP WIDTH="198"><div> 42.7%</div> </tD> </tR> <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> Lignin</div> </tD> <tD VALIGN=TOP WIDTH="198"><div> 17.2%</div> </tD> </tR> <tR> <tD VALIGN=TOP HEIGHT= 18 ><NOBR><div> Alcohol-Benzene Solubles</div> </NOBR></tD> <tD VALIGN=TOP WIDTH="198"><div>  0.9%</div> </tD> </tR> <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> Hot Water Solubles</div> </tD> <tD VALIGN=TOP WIDTH="198"><div>  2.8%</div> </tD> </tR> <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> Alkali Solubles</div> </tD> <tD VALIGN=TOP WIDTH="198"><div> 17.2%</div> </tD> </tR> <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> Pentosans</div> </tD> <tD VALIGN=TOP WIDTH="198"><div> 27.3%</div> </tD> </tR> <tR> <tD VALIGN=TOP HEIGHT= 18 WIDTH="198"><div> Ash</div> </tD> <tD VALIGN=TOP WIDTH="198"><div>  0.7%</div> </tD> </tR> </TABLE></div> <bR> <div> <B>BONGKOT RAW MATERIAL</B></div> <bR> <div> Palm oil mills use a pressurized cooking process to remove the oil containing seeds.  Steamed bongkot is a by-product of the process.  In this form, the bongkot is highly susceptible to pest infestation, mould and fungal attack because the steamed bongkot has a high moisture content and it is rich in sugars and starch.  Another problem using steamed bongkot directly from the palm oil mill is that it demands a high chemical consumption, and produces a pulp which is dirty and has poor strength [1].</div> <bR> <div> Researchers found that one process to solve this problem involved hammering and tearing apart the steamed bongkot after which the material was passed through a refiner (plates at maximum clearance) equipped with a continuous jet of water.  This loosened the non-fibrous material which could then be washed away.  Once it is broken up and cleaned, the remaining material can be dried quickly in the sun and then stored until needed for pulping.  The easy disintegration of bongkot allows for less energy usage in its preparation than bagasse and other tropical hardwoods [3]. </div> <bR> <div> <B>BONGKOT PULPING</B></div> <bR> <div> <B>Kraft Pulping</B> </div> <bR> <div> Three studies [1,2,4] were conducted using the kraft  process to produce pulp from bongkot.  Two studies [2,4] pretreated the raw material with NaOH which resulted in an increase in brownstock yield.  One study [4] also included the addition of anthraquinone, which improved yield up to a certain point (42.9%), after which yield decreased.  The third study [1] reported yields of  up to 56%.</div> <bR> <div> Table 3 provides the observed physical properties of the unbleached kraft pulp [4].  Beating the unbleached kraft pulps had a beneficial result on the properties of freeness, tear, breaking, burst, and folding endurance, all of which are within the upper range of hardwood kraft pulps.</div> <bR> <div> <B>Table 3.   </B>Physical Properties of Unbleached Kraft Pulp</div> <div> <TABLE BORDER="2" CELLPADDING="1" CELLSPACING="1" WIDTH="98%" BORDERCOLORLIGHT="#C0C0C0" BORDERCOLORDARK="#808080" FRAME="BOX" RULES="ALL" HSPACE="0" VSPACE="0" > <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="8%"><div> <B>Cook No.</B></div> </tD> <tD VALIGN=CENTER><NOBR><div> <B>Beating Time</B></div> <div> <B>(min)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Freeness</B></div> <div> <B>(ml CSF)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Burst Index</B></div> <div> <B>(kPa• m</B><B>2</B><B>/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Tensile Index</B></div> <div> <B>(Nm/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Tear Index</B></div> <div> <B>(mN•m2</B><B>/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER WIDTH="8%"><div> <B>Double Folds</B></div> </tD> <tD VALIGN=CENTER><NOBR><div> <B>Stretch</B></div> <div> <B>(%)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Air Resistance</B></div> <div> <B>(sec.)</B></div> </NOBR></tD> </tR> <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="8%"><div> 1</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div>    0</div> <div>  60</div> <div> 120</div> </tD> <tD VALIGN=CENTER WIDTH="9%"><div> 580</div> <div> 430</div> <div> 360</div> </tD> <tD VALIGN=CENTER WIDTH="11%"><div> 1.6</div> <div> 4.6</div> <div> 5.2</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div> 20</div> <div> 50</div> <div> 57</div> </tD> <tD VALIGN=CENTER WIDTH="11%"><div> 7.3</div> <div> 9.2</div> <div> 9.4</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div>  13</div> <div> 119</div> <div> 190</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div> 4.6</div> <div> 8.1</div> <div> 8.6</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div>  1.0</div> <div>  4.2</div> <div>  7.0</div> </tD> </tR> <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="8%"><div> 2</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div>    0</div> <div>  60</div> <div> 120</div> </tD> <tD VALIGN=CENTER WIDTH="9%"><div> 440</div> <div> 340</div> <div> 310</div> </tD> <tD VALIGN=CENTER WIDTH="11%"><div> 1.8</div> <div> 4.2</div> <div> 5.2</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div> 23</div> <div> 44</div> <div> 58</div> </tD> <tD VALIGN=CENTER WIDTH="11%"><div> 7.5</div> <div> 9.3</div> <div> 9.2</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div>  14</div> <div>  59</div> <div> 143</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div> 4.1</div> <div> 7.5</div> <div> 7.9</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div>  0.9</div> <div>  6.7</div> <div> 10.7</div> </tD> </tR> <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="8%"><div> 3</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div>    0</div> <div>  15</div> <div>  60</div> <div>  90</div> </tD> <tD VALIGN=CENTER WIDTH="9%"><div> 490</div> <div> 420</div> <div> 350</div> <div> 296</div> </tD> <tD VALIGN=CENTER WIDTH="11%"><div> 1.5</div> <div> 3.9</div> <div> 4.5</div> <div> 5.2</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div> 22</div> <div> 45</div> <div> 53</div> <div> 60</div> </tD> <tD VALIGN=CENTER WIDTH="11%"><div> 7.6</div> <div> 8.9</div> <div> 9.6</div> <div> 9.8</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div>  13</div> <div>  65</div> <div> 124</div> <div> 221</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div> 4.1</div> <div> 6.5</div> <div> 8.0</div> <div> 8.0</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div>  4.1</div> <div>  6.4</div> <div>  7.9</div> <div> 17.0</div> </tD> </tR> <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="8%"><div> 4</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div>    0</div> <div>  30</div> <div>  60</div> <div>  90</div> </tD> <tD VALIGN=CENTER WIDTH="9%"><div> 565</div> <div> 455</div> <div> 420</div> <div> 405</div> </tD> <tD VALIGN=CENTER WIDTH="11%"><div> 1.7</div> <div> 4.5</div> <div> 4.9</div> <div> 5.0</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div> 23</div> <div> 50</div> <div> 54</div> <div> 55</div> </tD> <tD VALIGN=CENTER WIDTH="11%"><div> 7.8</div> <div> 9.2</div> <div> 9.2</div> <div> 9.3</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div>  15</div> <div> 104</div> <div> 117</div> <div> 134</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div> 4.1</div> <div> 8.1</div> <div> 7.9</div> <div> 7.9</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div>  0.7</div> <div>  2.1</div> <div>  2.8</div> <div>  3.8</div> </tD> </tR> </TABLE></div> <bR> <div> The unbleached pulp brightness was reported as 40% ISO [4].  Using a simple CEH bleach sequence, a brightness of 90% ISO was achieved [1].  The effect of bleaching on the physical properties of the pulp is negligible as shown in table 4.</div> <bR> <div> <B>Table 4.   </B>Physical Properties of Bleached Kraft Pulp</div> <div> <TABLE BORDER="2" CELLPADDING="1" CELLSPACING="1" WIDTH="98%" BORDERCOLORLIGHT="#C0C0C0" BORDERCOLORDARK="#808080" FRAME="BOX" RULES="ALL" HSPACE="0" VSPACE="0" > <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="8%"><div> <B>Cook No.</B></div> </tD> <tD VALIGN=CENTER><NOBR><div> <B>Beating Time</B></div> <div> <B>(min)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Freeness</B></div> <div> <B>(ml CSF)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Burst Index</B></div> <div> <B>(kPa• m2</B><B>/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Tensile Index</B></div> <div> <B>(Nm/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Tear Index</B></div> <div> <B>(mN•m2</B><B>/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER WIDTH="8%"><div> <B>Double Folds</B></div> </tD> <tD VALIGN=CENTER><NOBR><div> <B>Stretch</B></div> <div> <B>(%)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Air Resistance</B></div> <div> <B>(sec.)</B></div> </NOBR></tD> </tR> <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="8%"><div> 3</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div>  0</div> <div> 15</div> <div> 60</div> <div> 90</div> </tD> <tD VALIGN=CENTER WIDTH="9%"><div> 575</div> <div> 505</div> <div> 400</div> <div> 315</div> </tD> <tD VALIGN=CENTER WIDTH="11%"><div> 1.7</div> <div> 3.9</div> <div> 3.9</div> <div> 4.2</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> 21</div> <div> 44</div> <div> 47</div> <div> 50</div> </tD> <tD VALIGN=CENTER WIDTH="12%"><div> 7.0</div> <div> 9.2</div> <div> 7.9</div> <div> 8.3</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div> 11</div> <div> 50</div> <div> 46</div> <div> 62</div> </tD> <tD VALIGN=CENTER WIDTH="8%"><div> 4.5</div> <div> 6.6</div> <div> 6.9</div> <div> 6.6</div> </tD> <tD VALIGN=CENTER WIDTH="13%"><div> 1.1</div> <div> 2.5</div> <div> 2.9</div> <div> 5.7</div> </tD> </tR> </TABLE></div> <bR> <div> It was concluded that, with a small addition of long fibre pulp, the kraft pulp may be suitable for the manufacture of medium strength paper.</div> <bR> <div> <B>Thermomechanical Pulping</B></div> <bR> <div> Thermomechanical pulping of bongkot [1,3], which had been pretreated with NaOH, resulted in a yield of 76%.  As shown in table 5, it has better tear resistance and slightly lower tensile strength than commercial softwood TMP, but is superior to bagasse TMP.  Black and small foreign materials were observed [3] in the pulp (although it is unclear if they employed the same refining method as given in the earlier description), but it was felt that further investigation was required for its removal.  The brightness of the pulp was less than 30% ISO unbleached, but was improved to 50% ISO using a single stage H2O2 bleaching process.</div> <bR> <div> <B>Table 5.   </B>Physical Properties of TMP</div> <div> <TABLE BORDER="2" CELLPADDING="1" CELLSPACING="1" WIDTH="98%" BORDERCOLORLIGHT="#C0C0C0" BORDERCOLORDARK="#808080" FRAME="BOX" RULES="ALL" HSPACE="0" VSPACE="0" > <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="14%"><div> <B>Freeness</B></div> <div> <B>(ml CSF)</B></div> </tD> <tD VALIGN=CENTER><NOBR><div> <B>Burst Index</B></div> <div> <B>(kPa•m2</B><B>/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Tensile Index</B></div> <div> <B>(Nm/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Tear Index</B></div> <div> <B>(mN•m2</B><B>/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER WIDTH="14%"><div> <B>Double Folds</B></div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> <B>Opacity</B></div> <div> <B>(%)</B></div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> <B>Stretch</B></div> <div> <B>(%)</B></div> </tD> </tR> <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="14%"><div> 187</div> <div> 163</div> <div> 150</div> <div> 131</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> -</div> <div> -</div> <div> -</div> <div> -</div> </tD> <tD VALIGN=CENTER WIDTH="15%"><div> 28</div> <div> 29</div> <div> 28</div> <div> 31</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> 11.9</div> <div> 9.9</div> <div> 10.4</div> <div> 10.7</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> 71</div> <div> 45</div> <div> 68</div> <div> 75</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> 98.3</div> <div> 99.2</div> <div> 99.0</div> <div> 98.7</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> -</div> <div> -</div> <div> -</div> <div> -</div> </tD> </tR> </TABLE></div> <bR> <div> <B>Neutral Sulphite Semi-Chemical Pulping</B> </div> <bR> <div> The neutral sulphite semi-chemical (NSSC) pulping process, as shown by the results in table 6, gives poor quality pulp.  The strength properties were poor, and improved only slightly on beating [2].</div> <bR> <div> <B>Table 6.   </B>Physical Properties of NSSC Pulp</div> <div> <TABLE BORDER="2" CELLPADDING="1" CELLSPACING="1" WIDTH="98%" BORDERCOLORLIGHT="#C0C0C0" BORDERCOLORDARK="#808080" FRAME="BOX" RULES="ALL" HSPACE="0" VSPACE="0" > <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="14%"><div> <B>Freeness</B></div> <div> <B>(ml CSF)</B></div> </tD> <tD VALIGN=CENTER><NOBR><div> <B>Burst Index</B></div> <div> <B>(kPa•m2</B><B>/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Tensile Index</B></div> <div> <B>(Nm/g)</B></div> </NOBR></tD> <tD VALIGN=CENTER><NOBR><div> <B>Tear Index</B></div> <div> <B>(mN•m2/</B><B>g)</B></div> </NOBR></tD> <tD VALIGN=CENTER WIDTH="14%"><div> <B>Double Folds</B></div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> <B>Opacity</B></div> <div> <B>(%)</B></div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> <B>Stretch</B></div> <div> <B>(%)</B></div> </tD> </tR> <tR> <tD VALIGN=CENTER HEIGHT= 2 WIDTH="14%"><div> 400</div> <div> 390</div> <div> 350</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> 1.2</div> <div> 1.8</div> <div> 2.4</div> </tD> <tD VALIGN=CENTER WIDTH="15%"><div> 18</div> <div> 24</div> <div> 30</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> 5.4</div> <div> 6.0</div> <div> 5.6</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> 6</div> <div> 8</div> <div> 14</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> -</div> <div> -</div> <div> -</div> </tD> <tD VALIGN=CENTER WIDTH="14%"><div> 3.6</div> <div> 4.1</div> <div> 5.1</div> </tD> </tR> </TABLE></div> <bR> <div> <B>CONCLUSIONS</B></div> <bR> <div> Research into the utilization of oil palm empty fruit bunches (bongkot) has been active since 1954.  Pulp suitable for certain paper products can be successfully produced.  Bongkot, to a large extent, resembles straw and produces paper products very similar to straw.</div> <bR> <div> Utilization of bongkot appears to be commercially and technologically feasible.  It may also be highly desirable environmentally because it relieves the environmental impact of bongkot, which is viewed as waste from the current oil production industry.</div> <bR> <div> Paper produced from bongkot will have relatively high physical strength, particularly tear.</div> <bR> <div> It appears that the most significant technical issue which must be addressed for the commercial use of bongkot by the pulp and paper industry is the presence of black spots in the pulp.  These black spots may be the result of fungal attack on the steamed bongkot as it exits the palm oil mill.  Development of a suitable raw material preparation system including hammermilling and wet cleaning before storage (similar to a bagasse preparation system) to remove the sugars and starch may reduce or eliminate the black spots in the pulp.  This could form an area for further research in the development of bongkot as a fibre resource.</div> <bR> <div> <B>REFERENCES</B></div> <bR> <div> 1. Choon, K. K. and Wan, L. T.  Pulp And Paper From The Oil Palm.  <U>Appita 45th Annual General Conference Proceedings</U>, volume 2:195-199 (1991).</div> <bR> <div> 2. Bin, P.T., Choon, K. K. and Wan, L. T.  Pulping Studies on Empty Fruit Bunches of Oil Palm (Elaeis Guineensis Jacq.).  <U>Malaysian Forester</U> 39, no.1:22-37 (1976).</div> <bR> <div> 3. Akamatsu, I., Kobayashi, Y., Kamishima, H., Hassan, K. B., Yusoff, M. N. B. M., Husin, M.B. and Hassan, H.A.H.  Industrial Utilization of Oil Palm By-Products. II: Thermomechanical Pulping of Empty Fruit Bunches.  <U>Cellulose Chemical Technology</U> 21, no.2:191-197 (1987).</div> <bR> <div> 4. Akamatsu, I., Husin, M.B., Kamishima, H. and Hassan, A.H.  Industrial Utilization of Oil Palm (Elaeis Guineensis) By-Products:Kraft-Anthraquinone Pulping of Oil Palm Empty Fruit Bunches.  <U>Cellulose Chemical Technology</U> 21, no.1:67-75 (1987).</div> <bR> <bR> <bR> <div> <TABLE BORDER="0" CELLPADDING="2" CELLSPACING="3" WIDTH="98%" BORDERCOLORLIGHT="#C0C0C0" BORDERCOLORDARK="#808080" FRAME="BOX" RULES="ALL" ALIGN="LEFT" HSPACE="0" VSPACE="0" > <tR> <tD VALIGN=TOP HEIGHT= 2 WIDTH="100%"><div> <A HREF="index.htm" TARGET="_top" TITLE="HurterConsult Incorporated">Home</A> / <A HREF="philosophy.htm" TARGET="_top" TITLE="Our Process Technology Design Philosoph">Process Technology & Design Philosophy</A> /<B> </B><A HREF="expertise.htm" TARGET="_top" TITLE="Our Areas of Expertise">Areas of Expertise</A><B> </B>/<B> </B><A HREF="services.htm" TARGET="_top" TITLE="Our Scope of Services">Scope of Services</A> / <A HREF="cellulosic_biofuels.htm" TARGET="_top" TITLE="Cellulosic Biofuel">Cellulosic Biofuel</A></div> <div> <A HREF="references.htm" TARGET="_top" TITLE="HurterConsult Project References">Project References</A> / <A HREF="info.htm" TARGET="_top" TITLE="HurterConsult News Info"><B>News & Info</B></A> / <A HREF="links.htm" TARGET="_top" TITLE="HurterConsult Favorite Links">Links</A> / <A HREF="contact.htm" TARGET="_top" TITLE="Contact HurterConsult">Contact Us</A> / <A HREF="legal_notice.htm" TARGET="_top" TITLE="Legal Notice About This Web Site">Legal Notice</A></div> <bR> <div> <A HREF="tcf_sisal_pulp_2.htm" TARGET="_top" TITLE="TCF Bleached Sisal Market Pulp: Potentia"><B>Up</B></A><B>  /  </B><A HREF="contact.htm" TARGET="_top" TITLE="Contact HurterConsult"><B>Contact Us</B></A></div> <div> <B>  <center> <FORM method=GET action="http://www.google.com/search" TARGET=_blank> <input type=hidden name=ie value=UTF-8> <input type=hidden name=oe value=UTF-8> <TABLE bgcolor="#FFFFFF"><tr><td> <A HREF="http://www.google.com/" TARGET=_blank> <IMG SRC=http://www.google.com/logos/Logo_40wht.gif border="0" ALT="Google" align="middle"></A> </td> <td> <INPUT TYPE=text name=q size=31 maxlength=255 value=""> <INPUT type=submit name=btnG VALUE="Google Search"> <input type=hidden name=domains value="www.HurterConsult.com"><br><input type=radio name=sitesearch value=""> Search WWW <input type=radio name=sitesearch value="www.HurterConsult.com" checked> Search www.HurterConsult.com <br> </font> </td></tr></TABLE> </FORM>   </B></div> <bR> <bR> <div> <B>Copyright © 2000-2010 HurterConsult Incorporated.  All rights reserved.</B></div> <bR> </tD> </tR> </TABLE></div> <bR> </td> </tr></table></body>