298
18 Advancements in Bio-hydrogen Production from Waste Biomass
2 Ju, H.K., Badwal, S., Giddey, S. et al. (2018). Comprehensive review of carbon
and hydrocarbon assisted water electrolysis for hydrogen production. Applied
Energy 231: 502–533.
3 Sarma, S. (2018). Thesis: Biohydrogen production from crude glycerol: process
optimization and intensification. IIT Guwahati, Assam, India. http://gyan.iitg
.ernet.in/handle/123456789/1219.
4 Melis, A., Zhang, L., Forestier, M. et al. (2000). Sustained photobiological hydro-
gen gas production upon reversible inactivation of oxygen evolution in the green
alga Chlamydomonas reinhardtii. Plant Physiology 122: 127–136.
5 Manish, S. and Banerjee, R. (2008). Comparison of biohydrogen production
processes. International Journal of Hydrogen Energy 33: 279–286.
6 Lukajtis, R., Hołowacz, I., Kucharska, K. et al. (2018). Hydrogen production from
biomass using dark fermentation. Renewable and Sustainable Energy Reviews 91:
665–694.
7 Sinha, P. and Pandey, A. (2011). An evaluative report and challenges for fer-
mentative biohydrogen production. International Journal of Hydrogen Energy 36:
7460–7478.
8 Sivagurunathan, P., Kumar, G., Mudhoo, A. et al. (2017). Fermentative hydrogen
production using lignocellulose biomass: an overview of pre-treatment methods,
inhibitor effects and detoxification experiences. Renewable and Sustainable
Energy Reviews 77: 28–42.
9 Ma, S., Wang, H., Wang, Y. et al. (2011). Bio-hydrogen production from cornstalk
wastes by orthogonal design method. Renewable Energy 36: 709–713.
10 Panigrahi, S. and Dubey, B.K. (2019). A critical review on operating parameters
and strategies to improve the biogas yield from anaerobic digestion of organic
fraction of municipal solid waste. Renewable Energy 143: 779–797.
11 Khanal, S.K., Chen, W.H., Li, L., and Sung, S. (2004). Biological hydrogen
production: effects of pH and intermediate products. International Journal of
Hydrogen Energy 29: 1123–1131.
12 Wang, J. and Wei, W. (2009). Factors influencing fermentative hydrogen produc-
tion: a review. International Journal of Hydrogen Energy 34: 799–811.
13 O-Thong, S., Prasertsan, P., Intrasungkha, N. et al. (2008). Optimization of simul-
taneous thermophilic fermentative hydrogen production and COD reduction
from palm oil mill effluent by Thermoanaerobacterium-rich sludge. International
Journal of Hydrogen Energy 33: 1221–1231.
14 Yokoyama, H., Waki, M., Ogino, A. et al. (2007). Hydrogen fermentation prop-
erties of undiluted cow dung. Journal of Bioscience and Bioengineering 104:
82–85.
15 Wong, Y.M., Wu, T.Y., Ling, T.C. et al. (2018). Evaluating new bio-hydrogen pro-
ducers: Clostridium perfringens strain JJC, Clostridium bifermentans strain WYM
and Clostridium sp. strain Ade. TY. Journal of Bioscience and Bioengineering 125:
590–598.
16 Sarma, S., Dubey, V.K., and Moholkar, V.S. (2016). Kinetic and thermodynamic
analysis (with statistical optimization) of hydrogen production from crude