纤维素科学与技术
纖維素科學與技術
섬유소과학여기술
JOURNAL OF CELLULOSE SCIENCE AND TECHNOLOGY
2012年
2期
67-75
,共9页
液化%微波加热%固体酸催化%离子液体%超临界流体
液化%微波加熱%固體痠催化%離子液體%超臨界流體
액화%미파가열%고체산최화%리자액체%초림계류체
liquefaction%microwave%solid acid catalyst%ionic liquid%supercritical fluid
介绍了植物纤维原料液化的几种新技术。植物纤维在微波作用下可以有效地液化,反应时间也显著缩短,即使是结晶度较高的纤维素也可充分降解;固体酸催化剂有较高的催化活性和选择性,而且可以循环利用;离子液体能使液化反应在近似均相的反应体系中进行,能高效地溶解纤维素、木质素和半纤维素,提高液化效率。超临界流体具有高扩散性和低表面张力,能够很好地渗透到固体内部,是植物纤维原料液化的优异溶剂。
介紹瞭植物纖維原料液化的幾種新技術。植物纖維在微波作用下可以有效地液化,反應時間也顯著縮短,即使是結晶度較高的纖維素也可充分降解;固體痠催化劑有較高的催化活性和選擇性,而且可以循環利用;離子液體能使液化反應在近似均相的反應體繫中進行,能高效地溶解纖維素、木質素和半纖維素,提高液化效率。超臨界流體具有高擴散性和低錶麵張力,能夠很好地滲透到固體內部,是植物纖維原料液化的優異溶劑。
개소료식물섬유원료액화적궤충신기술。식물섬유재미파작용하가이유효지액화,반응시간야현저축단,즉사시결정도교고적섬유소야가충분강해;고체산최화제유교고적최화활성화선택성,이차가이순배이용;리자액체능사액화반응재근사균상적반응체계중진행,능고효지용해섬유소、목질소화반섬유소,제고액화효솔。초림계류체구유고확산성화저표면장력,능구흔호지삼투도고체내부,시식물섬유원료액화적우이용제。
Several new techniques of liquefaction for lignocellulosic materials are reviewed. Lignocellulose can be liquefied effectively by microwave heating. The liquefaction time can be significantly shortened. What's more, a complete degradation of highly crystalline cellulose can be achieved by microwave-assisted liquefaction. Solid acid catalyst, which is relatively green and recyclable, is highly catalytic active and chemical selective for liquefaction. Ionic liquids enable liquefaction to proceed in a homogeneous system, in which the degradation efficiency of cellulose, lignin and hemicelhilose can be improved. With high diffusivity and low surface tension, supercritical fluids penetrate into the solute easily and act as an exceptional solvent for the liquefaction of biomass materials.
