机译:通过整合稀酸酶水解和暗发酵从玉米秸秆生物强化纤维素制氢
Department of Chemistry, Zhengzhou University, Zhengzhou 450052, PR China,Biotechnology Department, Zhengzhou College of Animal Husbandry Engineering, Zhengzhou 450011, PR China;
Department of Chemistry, Zhengzhou University, Zhengzhou 450052, PR China,Hebei United university, Tangshan 063000, PR China;
Department of Chemistry, Zhengzhou University, Zhengzhou 450052, PR China;
Department of Chemistry, Zhengzhou University, Zhengzhou 450052, PR China;
Cornstalk; Cellulosic hydrogen; Fermentation; Dilute acid-enzyme hydrolysis; Response surface methodology; Biodegradation mechanism;
机译:通过稀碱纤维素酶两步水解进行暗发酵和光发酵,可增强玉米秸秆的制氢能力
机译:通过测序细菌水解和暗发酵策略生产纤维素氢
机译:通过三步厌氧发酵工艺与碱水解相结合,提高了玉米秸秆中氢和甲烷的联产
机译:酶水解和稀酸预处理玉米烷基烷基的发酵生物氢气
机译:通过稀酸释放的糖的发酵和豆粕的酶促水解来生产生物乙醇
机译:离子液体预处理和稀酸水解后由纤维素和麻风树皮制成的23-丁二醇
机译:通过添加两级发酵过程中的玉米污泥增强氢气和甲烷生产