Environmental Engineering Reference
In-Depth Information
on Energy Network of Thailand, ENETT2550-072, Bangkok, Thailand, May 23-25,
2007.
10. Das D., Veziroglu TN. Hydrogen production by biological processes: A survey of litera-
ture.
International Journal of Hydrogen Energy
2001
,
26
, 13-28.
11. Nandi R., Sengupta S. Microbial production of hydrogen: An overview.
Critical Reviews
in Microbiology
1998
,
24
, 61-84.
12. Cheong DY., Hansen CL. Bacterial stress enrichment enhances anaerobic hydrogen pro-
duction in cattle manure sludge.
Applied Microbiology and Biotechnology
2006
,
72
,
635-643.
13. Ren N., Li J., Li B., Wang Y., Liu S. Biohydrogen production from molasses by anaerobic
fermentation with a pilotscale bioreactor system.
International Journal of Hydrogen
Energy
2006
,
31
, 2147e57.
14. O-Thong S., Prasertsan P., Karakashev D., Angelidaki I. Thermophilic fermentative
hydrogen production by the newly isolated
Thermoanaerobacterium thermosaccharolyti-
cum
PSU-2.
International Journal of Hydrogen Energy
2008
,
33
, 1204-1214.
15. Devrije T., Bakker RR., Budde MAW., Lai MH., Mars AE., Claassen PAM. Efficient
hydrogen production from the lignocellulosic energy crop Miscanthus by the extreme
thermophilic bacteria
Caldicellulosiruptor saccharolyticus
and
Thermotoga neapolitana
.
Biotechnology Biofuels
2009
,
2
, 12.
16. Zheng H., O'Sullivan C., Mereddy R., Zeng RJ., Duke M., Clarke W. Production of bio-
hydrogen using a membrane anaerobic reactor: Limitations due to diffusion. In Proceed-
ings of the Environmental Research Event 2009, Noosa Heads, Queensland, Australia,
May 10-13, 2009.
17. Kotay SM., Das D. Biohydrogen as a renewable energy resourced prospects and poten-
tials.
International Journal of Hydrogen Energy
2008
,
33
, 258-263.
18. Tao Y., Chen Y., Wu Y., He Y., Zhou Z. High hydrogen yield from a two-step process of
dark- and photo-fermentation of sucrose.
International Journal of Hydrogen Energy
2007
,
32
, 200-206.
19. Demirbas A. Thermochemical conversion of mosses and algae to gaseous products.
Energy Sources. Part A. Recovery, Utilization, and Environmental Effects
2009
,
31
,
746-753.
20. Balat H. Prospects of biofuels for a sustainable energy future: A critical assessment.
Energy Education Science and Technology, Part A
2010
,
24
, 85-111.
21. Encinar JM., Beltran FJ., Ramiro A., Gonzalez JF. Pyrolysis/gasification of agricultural
residues by carbon dioxide in the presence of different additives: Influence of variables.
Fuel Processing Technology
1998
,
55
, 219-233.
22. Balat M. New biofuel production technologies.
Energy Education Science and Technol-
ogy, Part A
2009
,
22
, 147-161.
23. Ni M., Leung DYC., Leung MKH., Sumathy K. An overview of hydrogen production
from biomass.
Fuel Processing Technology
2006
,
87
, 461-472.
24. Demirbas A. Partial hydrogenation effect of moisture contents on the combustion oils
from biomass pyrolysis.
Energy Sources. Part A. Recovery, Utilization, and Environmen-
tal Effects
2008
,
30
, 508-515.
Search WWH ::
Custom Search