Bio-hydrogen production from cassava pulp hydrolysate using co-culture of Clostridium butyricum and Enterobacter aerogenes.

[1]  Walid M. Alalayah,et al.  Bio-hydrogen production using a two-stage fermentation process. , 2009, Pakistan journal of biological sciences : PJBS.

[2]  Hanqing Yu,et al.  Fermentative H2 production in an upflow anaerobic sludge blanket reactor at various pH values. , 2008, Bioresource technology.

[3]  Jo‐Shu Chang,et al.  Dark H2 fermentation from sucrose and xylose using H2-producing indigenous bacteria: feasibility and kinetic studies. , 2008, Water research.

[4]  Debabrata Das,et al.  Biohydrogen as a renewable energy resource—Prospects and potentials , 2008 .

[5]  Jo‐Shu Chang,et al.  Dark fermentative hydrogen production from xylose in different bioreactors using sewage sludge microflora , 2008 .

[6]  Jo‐Shu Chang,et al.  Continuous Biohydrogen Production from Starch with Granulated Mixed Bacterial Microflora , 2008 .

[7]  Herbert H. P. Fang,et al.  Fermentative Hydrogen Production From Wastewater and Solid Wastes by Mixed Cultures , 2007 .

[8]  F. Kargı,et al.  Bio-hydrogen production from waste materials , 2006 .

[9]  Han-Qing Yu,et al.  Inhibitory effects of butyrate on biological hydrogen production with mixed anaerobic cultures. , 2005, Journal of environmental management.

[10]  S. Papanikolaou,et al.  The effect of raw glycerol concentration on the production of 1,3‐propanediol by Clostridium butyricum , 2004 .

[11]  Hang-Sik Shin,et al.  Biohydrogen production by anaerobic fermentation of food waste , 2004 .

[12]  Tong Zhang,et al.  Biohydrogen production from starch in wastewater under thermophilic condition. , 2003, Journal of environmental management.

[13]  Bruno Fabiano,et al.  Thermodynamic study and optimization of hydrogen production by Enterobacter aerogenes , 2002 .

[14]  R. Braun,et al.  Dilute-acid hydrolysis of sugarcane bagasse at varying conditions. , 2002, Applied biochemistry and biotechnology.

[15]  J. Lay,et al.  Biohydrogen production as a function of pH and substrate concentration. , 2001, Environmental science & technology.

[16]  Debabrata Das,et al.  Hydrogen production by biological processes: a survey of literature , 2001 .

[17]  H Yokoi,et al.  Microbial hydrogen production from sweet potato starch residue. , 2001, Journal of bioscience and bioengineering.

[18]  J. N. Nigam Cultivation of Candida langeronii in sugar cane bagasse hemicellulosic hydrolyzate for the production of single cell protein , 2000 .

[19]  Tatsuya Noike,et al.  Effect of pH on the microbial hydrogen fermentation , 2002 .

[20]  Yutaka Nakashimada,et al.  Enhanced hydrogen production in altered mixed acid fermentation of glucose by Enterobacter aerogenes , 1997 .

[21]  V. Kalia,et al.  Conversion of waste biomass (pea-shells) into hydrogen and methane through anaerobic digestion , 1996 .

[22]  N. Mizukami,et al.  Direct conversion of cellulosic materials to hydrogen by Clostridium sp. strain no. 2 , 1995 .

[23]  Jun Hirose,et al.  Characteristics of hydrogen production by aciduric Enterobacter aerogenes strain HO-39 , 1995 .

[24]  C. F. Brewer,et al.  Determination of the concentrations of oligosaccharides, complex type carbohydrates, and glycoproteins using the phenol-sulfuric acid method. , 1994, Carbohydrate research.

[25]  Fumiaki Taguchi,et al.  Efficient hydrogen production from starch by a bacterium isolated from termites , 1992 .

[26]  N. Kamiya,et al.  Hydrogen evolution of Enterobacter aerogenes depending on culture pH: mechanism of hydrogen evolution from NADH by means of membrane-bound hydrogenase. , 1989, Biochimica et biophysica acta.

[27]  I Karube,et al.  Continous hydrogen production by immobilized whole cells of Clostridium butyricum , 1976 .