Cellulosics: Pulp, Fibre and Environmental AspectsJohn F. Kennedy, Glyn O. Phillips, Peter A. Williams |
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Page 31
... bagasse to yield one tonne of this paper . The potential of bagasse as waste , considering the updated state of the distilleries technology for fuel alcohol production , are of approximately 7.5 million tonnes / year for the whole of ...
... bagasse to yield one tonne of this paper . The potential of bagasse as waste , considering the updated state of the distilleries technology for fuel alcohol production , are of approximately 7.5 million tonnes / year for the whole of ...
Page 123
... bagasse pulp D. Paul , H.-J. Gensrich , O. Quintela * and E. Ramirez * - Institute of Polymer Chemistry , KantstraBe 55 , O - 1530 Teltow , Germany . * Academy of Science , La Habana , Cuba . ABSTRACT The rich resources of sugar cane in ...
... bagasse pulp D. Paul , H.-J. Gensrich , O. Quintela * and E. Ramirez * - Institute of Polymer Chemistry , KantstraBe 55 , O - 1530 Teltow , Germany . * Academy of Science , La Habana , Cuba . ABSTRACT The rich resources of sugar cane in ...
Page 124
... bagasse from sugar cane of interest as a raw material for a modified viscose process . In our work consideration is given to optimize the parameters for manufacturing staple fibers on a pilot plant scale in the viscose process ...
... bagasse from sugar cane of interest as a raw material for a modified viscose process . In our work consideration is given to optimize the parameters for manufacturing staple fibers on a pilot plant scale in the viscose process ...
Contents
Preface | 1 |
Pulp production by catalytic oxygenalkalialcohol OAA delignification | 17 |
Production of cellulose from Brazilian lignocellulosic residues | 31 |
Copyright | |
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acetate acid activity alkali anaerobic digestion aspen bagasse black liquor bleaching bond breaking length BTCA carbohydrates carbon catalyst cationic cell wall cellulolytic cellulose Chem chemical chlorine chlorine dioxide chrysosporium components concentration cotton cotton fibers cresol crosslinking crystalline crystallite decrease degradation delignification determined dikaryons dioxide DMDHEU effect effluent elongation endoglucanase environmental enzyme EXPERIMENTAL explosion pulps fermentation fibre fibrets Figure finishing fumigatus fungi groups hemicellulose higher hydrolysis impregnation increase kraft pulp lignin lignocellulosic materials mechanical properties method molecular monokaryons Na₂SO NaOH obtained oxide oxygen paper properties parameters peroxidase peroxide Phanerochaete chrysosporium phenolic plant polymer pretreatment pulp and paper reaction refining energy Research residue samples shown Sitka spruce sodium solution solvent spectra spruce structure substrate sulfonate surface Table Tappi Technology temperature tensile strength Textile treated treatment values viscose WASH weight loss white-rot wood X-ray yarn yield