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机译:玉米秸秆稀硫酸预处理酶水解,并通过重组大肠杆菌FBR5的酶水解和有效的乙醇产生而无解毒
Bioenergy Research Unit National Center for Agricultural Utilization Research Agricultural Research Service US Department of Agriculture 1815 N. University Street Peoria IL 61604 United States;
Bioenergy Research Unit National Center for Agricultural Utilization Research Agricultural Research Service US Department of Agriculture 1815 N. University Street Peoria IL 61604 United States;
Bioenergy Research Unit National Center for Agricultural Utilization Research Agricultural Research Service US Department of Agriculture 1815 N. University Street Peoria IL 61604 United States;
Bioenergy Research Unit National Center for Agricultural Utilization Research Agricultural Research Service US Department of Agriculture 1815 N. University Street Peoria IL 61604 United States;
Corn stover; Dilute sulfuric acid pretreatment; Enzymatic hydrolysis; Ethanol fermentation; Recombinant Escherichia coli FBR5;
机译:玉米秸秆稀硫酸预处理酶水解,并通过重组大肠杆菌FBR5的酶水解和有效的乙醇产生而无解毒
机译:稀硫酸预处理后玉米秸秆的酶解
机译:玉米秸秆的稀硫酸预处理的总糖收率,然后酶法水解剩余的固体
机译:稀硫酸预处理和玉米秸秆酶水解成可发酵的糖
机译:玉米秸秆生物转化为增值化学品:稀硫酸预处理,木糖寡糖生产和乳酸发酵。
机译:凤眼兰生物质稀酸预处理的酶促水解和乙醇生产工艺优化
机译:木质纤维素生物质向乙醇生化转化的工艺设计与经济:玉米秸秆稀酸预处理和酶水解
机译:NREL 2012实现乙醇成本目标:通过稀酸预处理和玉米秸秆酶水解生化乙醇。