生物加工过程
生物加工過程
생물가공과정
CHINESE JOURNAL OF BIOPROCESS ENGINEERING
2014年
3期
73-78
,共6页
催化%呋喃化学品%纤维素%木质素%酚类化合物
催化%呋喃化學品%纖維素%木質素%酚類化閤物
최화%부남화학품%섬유소%목질소%분류화합물
furanic chemicals%catalysis%cellulose%lignin%phenolic compounds
生物质转化制备精细化学品是解决石油能源危机的重要途径之一。其中,纤维素及半纤维素转化合成呋喃基化学品与木质素转化制酚类化合物是主要的反应路线,特别是借助催化技术加速生物质转化更是当今化学领域的研究重点;依据催化反应体系的不同,对近年来用于生物质催化转化的反应媒介以及催化剂研究进展进行了综述,并对未来生物质催化转化研究方向的发展前景进行了展望。
生物質轉化製備精細化學品是解決石油能源危機的重要途徑之一。其中,纖維素及半纖維素轉化閤成呋喃基化學品與木質素轉化製酚類化閤物是主要的反應路線,特彆是藉助催化技術加速生物質轉化更是噹今化學領域的研究重點;依據催化反應體繫的不同,對近年來用于生物質催化轉化的反應媒介以及催化劑研究進展進行瞭綜述,併對未來生物質催化轉化研究方嚮的髮展前景進行瞭展望。
생물질전화제비정세화학품시해결석유능원위궤적중요도경지일。기중,섬유소급반섬유소전화합성부남기화학품여목질소전화제분류화합물시주요적반응로선,특별시차조최화기술가속생물질전화경시당금화학영역적연구중점;의거최화반응체계적불동,대근년래용우생물질최화전화적반응매개이급최화제연구진전진행료종술,병대미래생물질최화전화연구방향적발전전경진행료전망。
The conversion of biomass to produce fine chemicals was one of the important approaches to solve the energy crisis problem of petroleum oil?The main reaction routes were the synthesis of furanic derivatives from cellulose and the generation of phenolic compounds from lignin?Particularly,the biomass conversion with catalytic technology was one of the research focuses in the chemical field at present?In this review,the research development of reaction media and catalytic systems for the catalytic biomass transformation had been summarized?Furthermore,the prospective on the future research orientation was discussed for the utilization of biomass resources?
