生物质化学工程
生物質化學工程
생물질화학공정
BIOMASS CHEMICAL ENGINEERING
2015年
4期
25-30
,共6页
张宁%蒋剑春%杨静%卫民%赵剑%陈水根
張寧%蔣劍春%楊靜%衛民%趙劍%陳水根
장저%장검춘%양정%위민%조검%진수근
橡子%同步液化糖化发酵%燃料乙醇
橡子%同步液化糖化髮酵%燃料乙醇
상자%동보액화당화발효%연료을순
acorn flour%simultaneous liquefaction,saccharification and fermentation%fuel ethanol
以除去单宁的橡子粉为原料,应用活性干酵母同步液化糖化发酵( SLSF)制备燃料乙醇,并通过单因素试验和正交试验优化发酵条件。结果表明,同步液化糖化发酵技术适用于橡子粉发酵制备燃料乙醇;发酵的最佳条件为:除去单宁的橡子粉20 g,料液比为1∶3(g∶mL),淀粉酶100 U/g,糖化酶3750 U/g,活性干酵母1.50%;在30℃静止发酵120 h,发酵液中的乙醇质量浓度达到106.5 g/L,橡子淀粉的乙醇转化率达到89.36%。采用橡子粉发酵法制备燃料乙醇与以玉米等粮食作物为原料制备的燃料乙醇质量浓度相当,可以替代粮食作物生产燃料乙醇。
以除去單寧的橡子粉為原料,應用活性榦酵母同步液化糖化髮酵( SLSF)製備燃料乙醇,併通過單因素試驗和正交試驗優化髮酵條件。結果錶明,同步液化糖化髮酵技術適用于橡子粉髮酵製備燃料乙醇;髮酵的最佳條件為:除去單寧的橡子粉20 g,料液比為1∶3(g∶mL),澱粉酶100 U/g,糖化酶3750 U/g,活性榦酵母1.50%;在30℃靜止髮酵120 h,髮酵液中的乙醇質量濃度達到106.5 g/L,橡子澱粉的乙醇轉化率達到89.36%。採用橡子粉髮酵法製備燃料乙醇與以玉米等糧食作物為原料製備的燃料乙醇質量濃度相噹,可以替代糧食作物生產燃料乙醇。
이제거단저적상자분위원료,응용활성간효모동보액화당화발효( SLSF)제비연료을순,병통과단인소시험화정교시험우화발효조건。결과표명,동보액화당화발효기술괄용우상자분발효제비연료을순;발효적최가조건위:제거단저적상자분20 g,료액비위1∶3(g∶mL),정분매100 U/g,당화매3750 U/g,활성간효모1.50%;재30℃정지발효120 h,발효액중적을순질량농도체도106.5 g/L,상자정분적을순전화솔체도89.36%。채용상자분발효법제비연료을순여이옥미등양식작물위원료제비적연료을순질량농도상당,가이체대양식작물생산연료을순。
The fuel ethanol was produced from acron flour by simultaneous liquefaction, saccharification and fermentation ( SLSF) . The optimum conditions of fermentation by SLSF technology were determined through single factor experiments and orthogonal experiments. The results showed that SLSF technology was suitable for the ethanol fermentation from acorn flour. The optimum conditions were 20 g acorn flour removed of tannin,the ratio of materials to water 1∶3,amylase 100 U/g,glucoamylase 3 750 U/g and active dry yeast 1. 50%. The ethanol concentration of fermentation broth reached 106. 5 g/L after static fermentation for 120 h at 30℃,and the conversion rate of acorn starch into ethanol reached 89. 36%. The ethanol concentration of fermentation liquor by simultaneous liquefaction, saccharification and fermentation was comparable to the ethanol concentration fermented by corn and other food crops.