生物质化学工程
生物質化學工程
생물질화학공정
BIOMASS CHEMICAL ENGINEERING
2012年
6期
55-60
,共6页
李慧玲%任俊莉%王帅阳%孙润仓
李慧玲%任俊莉%王帥暘%孫潤倉
리혜령%임준리%왕수양%손윤창
生物质%转化%能源%高附加值化学品
生物質%轉化%能源%高附加值化學品
생물질%전화%능원%고부가치화학품
biomass%eonversion%energy%high-value chemicals
在简单介绍农业废弃生物质主要组分及含量的基础上,概述了当前农业废弃生物质主要组分纤维素、半纤维素及木质素转化为乙醇、丙酮等生物能源以及糠醛、呋喃等高附加值化学品的国内外研究进展,并分析其在研究中存在的问题及未来发展方向。
在簡單介紹農業廢棄生物質主要組分及含量的基礎上,概述瞭噹前農業廢棄生物質主要組分纖維素、半纖維素及木質素轉化為乙醇、丙酮等生物能源以及糠醛、呋喃等高附加值化學品的國內外研究進展,併分析其在研究中存在的問題及未來髮展方嚮。
재간단개소농업폐기생물질주요조분급함량적기출상,개술료당전농업폐기생물질주요조분섬유소、반섬유소급목질소전화위을순、병동등생물능원이급강철、부남등고부가치화학품적국내외연구진전,병분석기재연구중존재적문제급미래발전방향。
Based on introduction of the major components and content of agricultural residue biomass, this article briefly described the recent development in the conversion of celluloses, hemicelluloses and lignin as the main components in the cell wall of agricultural residue biomass into bioenergy such as ethanol, acetone and high-value chemicals such as furfural and furans. Furthermore, the problems in the conversion of biomass into bioenergy and high value-added chemicals were pointed out. The future development was brought forward, as well.