Environmental Engineering Reference
In-Depth Information
95. Wilderer, P.A., Roske, I., Ueberschar, A., Davids, L. (1993) Continuous flow and sequenc-
ing batch operation of biofilm reactors: A comparative study of shock loadings responses.
Biofoulings
6
, 295-304.
96. Kumar, N., Das, D. (2001) Continuous hydrogen production by immobilized
Enterobacter
cloacae
IIT-BT 08 using lignocellulosic materials as solid matrices.
Enzyme Microb Technol
29
, 280-87.
97. Yokoi, H., Tokushige, T., Hirose, J., Hayashi, S., Takasaki, Y. (1997) Hydrogen production
by immobilized cells of aciduric Enterobacter aerogenes strain HO-39.
J Ferment Bioeng
83
, 481-84.
98. Chandrasekhara Rao, N., Venkata Mohan, S., Muralikrishna, P., Sarma, P.N. (2005)
Treatment of composite chemical wastewater by GAC-Biofilm conFig d sequencing batch
reactor (SBGR) operated in aerobic environment.
JHazMater
124
, 59-67.
99. Venkata Mohan, S., Chandrasekhara Rao, N., Prasad, K.K., Sarma, P.N. (2005)
Bioaugmentation of anaerobic sequencing batch biofilm reactor (ASBBR) with immobi-
lized sulphate reducing bacteria (SRB) for treating sulfate bearing chemical wastewater.
Proc
Biochem
40
(
8
), 2849-57.
100. Chen, W., Sung, S., Chen, S. (2009) Biological hydrogen production in an anaerobic
sequencing batch reactor: pH and cyclic duration effects.
Int J Hydrogen Energy
34
, 227-34.
101. Wu, J.H., Lin, C.Y. (2004) Biohydrogen production by mesophilic fermentation of food
wastewater.
Water Sci Technol
49
, 223-28.
102. Ruzicka, M. (1996) The effect of hydrogen on acidogenic glucose cleavage.
Wa t R e s
30
,
2447-51.
103. Lin, C.Y., Lay, C.H. (2004) Carbon/nitrogen-ratio effect on fermentative hydrogen produc-
tion by mixed microflora.
Int J Hydrogen Energy
29
, 41-45.
104. Wang, B., Wan, W., Wang, J. (2009) Effect of ammonia concentration on fermentative
hydrogen production by mixed cultures.
Biores Technol
100
, 1211-13.
105. Bisaillon, A., Turcot, J., and Hallenbeck, P.C. (2006) The effect of nutrient limitation on
hydrogen production by batch cultures of
Escherichia coli
.
Int J Hydrogen Energy
31
,
1504-08.
106. Chen, Y., Cheng, J.J., Creamer, K.S. (2008) Inhibition of anaerobic digestion process: A
review.
Biores Technol
99
, 4044-64.
107. Salerno, M.B., Park, W., Zuo, Y., Logan, B.E. (2006) Inhibition of biohydrogen production
by ammonia.
Wa t R e s
40
, 1167-72.
108. Lin, C.Y., Lay, C.H. (2004) Effects of carbonate and phosphate concentrations on hydrogen
production using anaerobic sewage sludge microflora.
Int J Hydrogen Energy
29
, 275-81.
109. USDEH. (2007) Fuel Cells and Infrastructure Technologies Program, Multi-Year Research,
Development and Demonstration Plan, US Department of Energy.
110. Srikanth, S., Venkata Mohan, S., Prathima Devi, M., Dinikar, P., Sarma, P.N. (2008)
Acetate and butyrate as substrates for hydrogen production through photo-fermentation
using mixed culture: Optimization of process parameters and combined process evaluation.
Int J Hydrogen Energy
34
, 7513-22.
111. Logan, B.E. (2004) Biologically extracting energy from wastewater: Biohydrogen produc-
tion and microbial fuel cells.
Environ Sci Technol
38
, 160A-67A.
112. Zheng, X.J., Yu, H.Q. (2005) Inhibitory effects of butyrate on biological hydrogen produc-
tion with mixed anaerobic cultures.
J Environ Manag
74
, 65-70.
113. Nath, K., Kumar, A., Das, D. (2005) Hydrogen production by
Rhodobacter sphaeroides
strain O.U.001 using spent media of
Enterobacter cloacae
strain DM11.
Appl Microbiol
Biotechnol
68
, 533-41.
114. Ueno, Y., Fukui, H., Goto, M. (2007) Operation of a two-stage fermentation process
producing hydrogen and methane from organic waste.
Environ Sci Technol
41
(
4
), 1413-19.
115. Ding, H., Wang, J. (2008) Responses of the methanogenic reactor to different effluent frac-
tions of fermentative hydrogen production in a phase-separated anaerobic digestion system.
Int J Hydrogen Energy
33
, 6993-7005.
Search WWH ::
Custom Search