广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2012年
18期
72-73,86
,共3页
张旗%袁淏%李龙伟%张兵团%巴向阳
張旂%袁淏%李龍偉%張兵糰%巴嚮暘
장기%원호%리룡위%장병단%파향양
玉米秸秆%生物化工醇%雷尼镍催化剂
玉米秸稈%生物化工醇%雷尼鎳催化劑
옥미갈간%생물화공순%뢰니얼최화제
corn stalk%biological chemical polyols%Raney -Ni catalyst
利用秸秆纤维素生产生物化工醇代替非可再生资源石油已成为目前国内外研究的热门课题,整个工艺关键的两步是秸秆制糖和糖的氢化裂解。目前国内研究较成功的结果表明玉米秸秆采用高温酸解预处理和酶解技术,纤维素的转化率达80%以上,成本低且不产生工业"三废";用高效雷尼镍催化剂氢化裂解秸秆糖,生物化工醇收率可达81%左右,再利用减压精馏技术得到所需的化工醇产品。
利用秸稈纖維素生產生物化工醇代替非可再生資源石油已成為目前國內外研究的熱門課題,整箇工藝關鍵的兩步是秸稈製糖和糖的氫化裂解。目前國內研究較成功的結果錶明玉米秸稈採用高溫痠解預處理和酶解技術,纖維素的轉化率達80%以上,成本低且不產生工業"三廢";用高效雷尼鎳催化劑氫化裂解秸稈糖,生物化工醇收率可達81%左右,再利用減壓精餾技術得到所需的化工醇產品。
이용갈간섬유소생산생물화공순대체비가재생자원석유이성위목전국내외연구적열문과제,정개공예관건적량보시갈간제당화당적경화렬해。목전국내연구교성공적결과표명옥미갈간채용고온산해예처리화매해기술,섬유소적전화솔체80%이상,성본저차불산생공업"삼폐";용고효뢰니얼최화제경화렬해갈간당,생물화공순수솔가체81%좌우,재이용감압정류기술득도소수적화공순산품。
Using corn stalk to produce biological chemical polyols instead of non renewable resources oi~ became a hot research topic at home and abroad, and the key technology was the two steps in straw sugar and sugar hydrogenation cracking. At present, the domestic more successful research results showed that corn stalk with high temperature and acid hydrolysis pretreatment and enzymolysis technology, cellulose conversion rate of more than 80%, low cost and no industri- al Three Wastes. Using efficient Raney - Ni catalyst to hydrogenate and split straw sugar, biological chemical alcohol yield can reach about 81% , and then using the vacuum distillation technology, desired chemical polyols products were ob- tained.
