生物质化学工程
生物質化學工程
생물질화학공정
BIOMASS CHEMICAL ENGINEERING
2012年
6期
40-46
,共7页
陈强%黄萍%罗彦卿%王艳%马莎%孔令喜
陳彊%黃萍%囉彥卿%王豔%馬莎%孔令喜
진강%황평%라언경%왕염%마사%공령희
林木生物质%化学品%环境%材料
林木生物質%化學品%環境%材料
림목생물질%화학품%배경%재료
forestry biomass%chemicals%environment%material
生物质资源作为唯一可以替代石化资源合成高附加值化工产品的可再生资源,近年来成为国内外研究的热点。本文从林木生物质资源不同组分及其转化方法入手,重点介绍了淀粉基、木质纤维素基和油脂基化学品的开发利用现状,旨在为林木生物质化学品的进一步开发利用提供参考。
生物質資源作為唯一可以替代石化資源閤成高附加值化工產品的可再生資源,近年來成為國內外研究的熱點。本文從林木生物質資源不同組分及其轉化方法入手,重點介紹瞭澱粉基、木質纖維素基和油脂基化學品的開髮利用現狀,旨在為林木生物質化學品的進一步開髮利用提供參攷。
생물질자원작위유일가이체대석화자원합성고부가치화공산품적가재생자원,근년래성위국내외연구적열점。본문종림목생물질자원불동조분급기전화방법입수,중점개소료정분기、목질섬유소기화유지기화학품적개발이용현상,지재위림목생물질화학품적진일보개발이용제공삼고。
Biomass has been recognized as a sustainable replacement of petroleum sources for production of high value added chemical products in recent years. In this paper, the research advances in the major components and conversion methods of forestry biomass were summarized. Current status of development and utilization of starch, wood and triglyceride materials was introduced. At last, the prospect of developing value-added chemicals from forestry biomass is pointed out.
