酿酒科技
釀酒科技
양주과기
LIQUOR-MAKING SCIENCE & TECHNOLOGY
2011年
11期
17-20
,共4页
亢能%刘忠%惠岚峰
亢能%劉忠%惠嵐峰
항능%류충%혜람봉
木质纤维%蒸汽爆破%影响因素%理化性质
木質纖維%蒸汽爆破%影響因素%理化性質
목질섬유%증기폭파%영향인소%이화성질
lignocellulosic materials%steam explosion%influencing factors%physiochemical properties
蒸汽爆破可破坏木质纤维结构,提高水解速率,是很有前景的生物质预处理技术。介绍了蒸汽爆破预处理的原理、影响因素及蒸汽爆破对底物及其后续酶水解的影响,并指出蒸汽爆破技术未来的研究方向。
蒸汽爆破可破壞木質纖維結構,提高水解速率,是很有前景的生物質預處理技術。介紹瞭蒸汽爆破預處理的原理、影響因素及蒸汽爆破對底物及其後續酶水解的影響,併指齣蒸汽爆破技術未來的研究方嚮。
증기폭파가파배목질섬유결구,제고수해속솔,시흔유전경적생물질예처리기술。개소료증기폭파예처리적원리、영향인소급증기폭파대저물급기후속매수해적영향,병지출증기폭파기술미래적연구방향。
Steam explosion is a promising biomass pretreatment technology because it could destroy the structure of lignocellulose and improve enzymatic hydrolysis rate. The principles of steam explosion and its influencing factors as well as its effects on the materials and enzymatic hydrolysis were reviewed. In addition, its research directions in the future were also put forward.
