广州化工
廣州化工
엄주화공
Guangzhou Chemical Industry
2015年
21期
59-60,93
,共3页
生物质%生物质液体燃料%产业化
生物質%生物質液體燃料%產業化
생물질%생물질액체연료%산업화
biomass%biomass energy preparation liquid fuel%industrialization
对生物制取醇类、烃类、酯类燃料的多条转化途径进行现状分析,在此基础上,提出以木质纤维素类物料为原料,通过热化学平台和糖平台转化为高品质液体生物燃料转化技术将是未来的研发和产业化方向。其中,过程工艺、反应器开发及经济性等因素是影响未来产业化的关键。
對生物製取醇類、烴類、酯類燃料的多條轉化途徑進行現狀分析,在此基礎上,提齣以木質纖維素類物料為原料,通過熱化學平檯和糖平檯轉化為高品質液體生物燃料轉化技術將是未來的研髮和產業化方嚮。其中,過程工藝、反應器開髮及經濟性等因素是影響未來產業化的關鍵。
대생물제취순류、경류、지류연료적다조전화도경진행현상분석,재차기출상,제출이목질섬유소류물료위원료,통과열화학평태화당평태전화위고품질액체생물연료전화기술장시미래적연발화산업화방향。기중,과정공예、반응기개발급경제성등인소시영향미래산업화적관건。
The multiple pathway of transformation of biomass energy preparation alcohols, hydrocarbons and esters were analyzed, on this basis, it was proposed that high quality liquid biofuels transformed using the wood cellulose material as raw material through the chemical platform and sugar platform was the future research and industrialization direction. The process, reactor development and economy were the key factors affecting future industrialization.
