XYLANASE MOLECULAR-SIZE, PULP PORE-STRUCTURE AND PULP DELIGNIFICATION

Citation
B. Maiti et D. Whitmire, XYLANASE MOLECULAR-SIZE, PULP PORE-STRUCTURE AND PULP DELIGNIFICATION, Chemical engineering communications, 162, 1997, pp. 169
Citations number
20
ISSN journal
00986445
Volume
162
Year of publication
1997
Database
ISI
SICI code
0098-6445(1997)162:<169:XMPPAP>2.0.ZU;2-D
Abstract
Bleaching kraft pulp with chlorine can result in toxic chlorinated spe cies in bleach plant effluent. Removing lignin from kraft pulp with xy lanase reduces chlorine required for bleaching, which, in turn, reduce s toxic species in bleach plant effluent. Kraft pulp mills using xylan ase pretreatment have reduced chlorine requirement for bleaching by 20 to 25% for hardwood pulp but only 10 to 15% for softwood pulp. The wo rk reported here demonostrates that xylanase molecular size and pulp p ore structure determine the amount of lignin that xylanase can remove from pulp. Using softwood pulp, xylanases with molecular weights of 20 ,000 Da, 39,000 Da, and 67,000 Da removed 48%, 39%, and 30% of lignin respectively. Mild cellulase pre-treatment of softwood pulp increased the apparent median pore size from 37 Angstrom to 67 Angstrom which en abled xylanase to reduce chlorine requirement for softwood pulp bleach ing by 31%. The same process applied to hardwood pulp eliminated 41.8% of chlorine required for bleaching.