2011 International Conference on Alternative Energy in Developing Countries and Emerging Economies
- 98 -
[4] Wang, J. L.; Wan, W.:
Effect of temperature on
fermentative hydrogen production by mixed cultures
,
International Journal of Hydrogen Energy
,
vol. 33, 2008,
pp. 5392
–
5397.
[5] Vazquez, I. V.; Sparling, R.; Risbey, D.; Seijas, N. R.;
Varaldo, H. M. P.:
Hydrogen generation via anaerobic
fermentation of paper mill wastes
, Bioresource
Technology, vol. 96, 2005, pp. 1907
–
1913.
[6] Liu H.; Zhang, T.; Fang H.P.P.;
Thermophilic H
2
production from cellulose containing wastewater
.
Biotechnology Letters, vol.25, 2003, pp. 365-369.
[7] Fountoulakis, M.S. ; Manios, T
.
:
Enhanced methane and
hydrogen production from municipal solid waste and
agro-industrial by-products co-digested with crude
glycerol
, Bioresource Technology, vol.100, 2009, pp.
3043
–
3047.
[8] Ginkel, S. V.; Oh, S. E.; Logan, B. E.:
Biohydrogen
production from food processing and domestic
wastewaters
, International Journal of Hydrogen Energy,
vol. 30, 2005, pp. 1535
–
1542.
[9] Yu, H. ; Zhu, Z. ; Hu, W. ; Zhang, H. :
Hydrogen
production from rice winery wastewater in an uplow
anaerobic reactor by mixed anaerobic cultures
,
International Journal of Hydrogen Energy, vol. 27, 2002,
pp. 1359
–
1365.
[10] Kapdan, I. K. ; Kargi, F.:
Bio-hydrogen production from
waste materials
, Enzyme
and
Microbial Technology, vol.
38, 2006, pp. 569
–
582.
[11] Janhom, T. ; Wattanachira, S. ; Pavasant, P. :
Characterization
of
brewery
wastewater
with
spectrofluorometry analysis
, Journal
of
Environmental
Management, vol. 90, 2009, pp. 1184
–
1190.
[12] Hawkes, F. R.; Hussy, I.; Kyazze, G.; Dinsdale, R.;
Hawkes, D. L.:
Continuous dark fermentative hydrogen
production by mesophilic microflora: principles and
progress
, International Journal of Hydrogen Energy, vol.
32, 2007, pp. 172
–
184.
[13] Shi, X.Y.; Jin, D.W.; Sun, Q.Y.; Li, W.W.:
Optimization
of conditions for hydrogen production from brewery
wastewater by anaerobic sludge using desirability
function approach
, Renewable Energy, vol. 35, 2010, pp.
1493
–
1498.
[14] Huang, C. W.; Hung, Y. I.:
Brewery wastewater treatment
by contact oxidation process
. Proceedings of the 41
st
Industrial Waste Conference (Chelsea), May 1986, pp.
90-98.
[15] LeClair, B. P. :
Performance monitoring program --
Molsons brewery deep shaft treatment system
. Proc. of the
9th Industrial Waste Conference, May 1984, pp. 256-268.
[16] Liu, H.; Wang, G.; Zhu, D.; Pan, G.:
Enrichment of the
hydrogen-producing microbial community from marine
intertidal sludge by different pretreatment methods
,
International Journal of Hydrogen Energy, vol. 34, 2009,
pp. 9696
–
9701.
[17] Ren, N. Q.; Guo, W. Q.; Wang, X. J.; Xiang, W. S.; Liu,
B. F.; Wang, X. Z.; Ding, J.; Chen, Z, B.:
Effects of
different pretreatment methods on fermentation types and
dominant bacteria for hydrogen production
, International
Journal of Hydrogen Energy, vol. 33, 2008, pp. 4318
–
4324.
[18] Wang, J. ; Wan, W.:
Comparison of different pretreatment
methods for enriching hydrogen-producing bacteria from
digested sludge
, International Journal of Hydrogen
Energy, vol. 33, 2008, pp. 2934
–
2941.
[19] APHA:
Standard methods for the examination of water
and wastewater
. 21
st
ed., Washington DC, USA, 2005.
[20] Cronin, C.; Lo, K. V.:,
Anaerobic treatment of Brewery
Wastewater using UASB Reactors Seeded with Activated
Sludge
, Bioresource Technology, vol. 64, 1998, pp.
33-38.
[21] Lee, D. Y.; Li, Y. Y. ; Noike, T. :
Continuous H
2
production by anaerobic mixed microflora in membrane
bioreactor
, Bioresource Technology, vol. 100, 2009, pp.
690
–
695.
[22] Sinbuathong, N. ; Sirirote, P. ; Liengcharernsit, W. ;
Khaodhiar, S.; Watts, D.J.:
Kinetic comparison of
microbial assemblages for the anaerobic treatment of
wastewater with high sulfate and heavy metal contents
,
Journal of Environmental Biology, 2009, pp. 11-15.