Bio-hydrogen production from cellulose by sequential co-culture of cellulosic hydrogen bacteria of Enterococcus gallinarum G1 and Ethanoigenens harbinense B49

被引：0

作者：

Aijie Wang

Lingfang Gao

Nanqi Ren

Jifei Xu

Chong Liu

机构：

[1] State Key Laboratory of Urban Water Resource and Environment (SKLUWRE,School of Municipal and Environmental Engineering

[2] HIT),undefined

[3] Harbin Institute of Technology,undefined

来源：

Biotechnology Letters | 2009年 / 31卷

关键词：

Hydrogen; Isolation lignocellulose; Sequential co-culture;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Microbial conversion of lignocellulose to hydrogen is a fascinating way to provide a renewable energy source. A mesophilic bacterium strain G1 that had high cellulose degradation and hydrogen production activity (2.38 mmol H2 g−1 cellulose) was isolated from rumen fluid and identified as the Enterococcus gallinarum. Hydrogen production from cellulose by using sequential co-cultures of a cellulosic-hydrolysis bacterium G1 and Ethanoigenens harbinense B49 was investigated. With an initial Avicel concentration of 5 g l−l, the sequential co-culture with G1 and strain Ethanoigenens harbinense B49 produced H2 yield approximately 2.97 mmol H2 g−1 cellulose for the co-culture system.

引用

页码：1321 / 1326

页数：5

共 10 条

[1] Bio-hydrogen production from cellulose by sequential co-culture of cellulosic hydrogen bacteria of Enterococcus gallinarum G1 and Ethanoigenens harbinense B49
Wang, Aijie
Gao, Lingfang
Ren, Nanqi
Xu, Jifei
Liu, Chong
BIOTECHNOLOGY LETTERS, 2009, 31 (09) : 1321 - 1326
[2] Bioaugmented hydrogen production from microcrystalline cellulose using co-culture -: Clostridium acetobutylicum X9 and Etilanoigenens harbinense B49
Wang, Aijie
Ren, Nanqi
Shi, Yinguen
Lee, Duu-Jong
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2008, 33 (02) : 912 - 917
[3] Control strategies for hydrogen production through co-culture of Ethanoligenens harbinense B49 and immobilized Rhodopseudomonas faecalis RLD-53
Xie, Guo-Jun
Feng, Liu-Bing
Ren, Nan-Qi
Ding, Jie
Liu, Chong
Xing, De-Feng
Qian, Guo-Wan
Ren, Hong-Yu
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2010, 35 (05) : 1929 - 1935
[4] Bio-hydrogen production from acetic acid steam-exploded corn straws by simultaneous saccharification and fermentation with Ethanoligenens harbinense B49
Xu, Ji-Fei
Ren, Nan-qi
Su, Dong-Xia
Qiu, Jie
INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 2010, 34 (05) : 381 - 386
[5] Control strategies for hydrogen production through co-culture of Ethanoligenens harbinense B49 and immobilized Rhodopseudomonas faecalis RLD-53
State Key Laboratory of Urban Water Resource and Environment, Harbin Institute of Technology, No. 202 Haihe Road, 2nd Campus HIT Box 2614, Harbin, 150090, China
Int J Hydrogen Energy, 5 (1929-1935):
[6] Analysis of bio-hydrogen production capacity of the cellulose degradation by cellulolyticum sp.X9 and ethanoigenensharbinense B49
Bao, Hongxu
Ren, Nanqi
Wang, Aijie
Shenyang Jianzhu Daxue Xuebao (Ziran Kexue Ban)/Journal of Shenyang Jianzhu University (Natural Science), 2008, 24 (03): : 463 - 467
[7] A novel anaerobic co-culture system for bio-hydrogen production from sugarcane bagasse
Cheng, Jingrong
Zhu, Mingjun
BIORESOURCE TECHNOLOGY, 2013, 144 : 623 - 631
[8] Optimization of key factors affecting biohydrogen production from microcrystalline cellulose by the co-culture of Clostridium acetobutylicum X9 + Ethanoigenens harbinense B2
Bao, Hongxu
Chen, Chunxiao
Jiang, Lei
Liu, Yichen
Shen, Manli
Liu, Wenzong
Wang, Aijie
RSC ADVANCES, 2016, 6 (05) : 3421 - 3427
[9] Hydrogen production by immobilized R. faecalis RLD-53 using soluble metabolites from ethanol fermentation bacteria E. harbinense B49
Liu, Bing-Feng
Ren, Nan-Qi
Xing, De-Feng
Ding, Jie
Zheng, Guo-Xiang
Guo, Wan-Qian
Xu, Ji-Fei
Xie, Guo-Jun
BIORESOURCE TECHNOLOGY, 2009, 100 (10) : 2719 - 2723
[10] Dark fermentative bio-hydrogen production from waste wheat starch using co-culture with periodic feeding: Effects of substrate loading rate
Ozmihci, Serpil
Kargi, Fikret
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2011, 36 (12) : 7089 - 7093

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