Page 329 - Refining Biomass Residues for Sustainable Energy and Bioproducts
P. 329
298 Refining Biomass Residues for Sustainable Energy and Bioproducts
pp. 575 648, The International Institute for Applied Systems Analysis: Laxenburg,
Austria, 2008.
Kaparaju, P., Serrano, M., Thansen, A.B., Kongian, P., Angelidai, I., 2009. Bioethanol, bio-
hydrogen and biogas production from wheat straw in a biorefinery concept. Bioresour.
Technol. 100, 2562 2568.
Karimi, K., Kheradmandinia, S., Taherzadeh, M.J., 2006. Conversion of rice straw to sugars
by dilute acid hydrolysis. Biomass Bioenergy 30, 247 253.
Karimi, K., Emtiazi, G., Taherzadeh, M.J., 2016. Ethanol production from dilute-acid pre-
treated rice straw by simultaneous saccharification and fermentation with Mucor indicus,
Rhizopus oryzae, and Saccharomyces cerevisiae. Enzyme Microb. Technol. 40 (1),
138 144.
Kaur, A., Rani, J., 2016. An approach to detect stubble burned areas in Punjab by digitally
analyzing satellite images. J. Res. 02, 06.
Kim, S., Dale, B.E., 2004. Global potential bioethanol production from wasted crops and
crop residues. Biomass Bioenergy 26 (4), 361 375.
Koh, M.Y., Ghazi, T.I.M., 2011. A review of biodiesel production from Jatropha curcas
L. oil. Renew. Sustain. Energy Rev. 15 (5), 2240 2251. Available from: https://doi.org/
10.1016/j.rser.2011.02.013.
Kopsahelis, A., Stavropoulos, K., Zafiri, C., Kornaros, M., 2018. Anaerobic co-digestion of
end-of-life dairy products with agroindustrial wastes in a mesophilic pilot-scale two
stage system: assessment of system’s performance. Energy Convers. Manage. 165,
851 860.
Kovarik, B., 2013. History of biofuels. In: Singh, B.P. (Ed.), Biofuels Crops. Center for
Bioscience International (CABI), Wellington.
Kuhad, R.C., Gupta, R., Khasa, Y.P., Singh, A., 2010. Bioethanol production from Lantana
camara (red sage): pretreatment, saccharification and fermentation. Bioresour. Technol.
101, 8348 8354.
Kumar, A., Gaind, S., Nain, L., 2008. Evaluation of thermophilic fungal consortium for
paddy straw composting. Biodegradation 19, 395 402.
Kumar, S., Singh, N., Prasad, R., 2010. Anhydrous ethanol: a renewable source of energy.
Renew. Sustain. Energy Rev. 14, 1830 1844. Available from: https://doi.org/10.1016/j.
rser.2010.03.015.
Kumar, P., Kumar, S., Joshi, L., 2015. The extend and management of crop residue stubbles.
In: Kumar, P., Kumar, S., Joshi, L. (Eds.), Socioeconomic and Environmental
Implications of Agricultural Residue Burning: A Case Study of Punjab, India. Springer
Briefs in Environmental Science, ISBN: 978-81-322-2014-5p. 144. Available from:
https://www.springer.com/978-81-322-2146-3.
Lefroy, R.D., Chaitep, W., Blair, G.J., 1994. Release of sulphur from rice residue under
flooded and non-flooded soil conditions. Aust. J. Agric. Res. 45, 657 667.
Lohan, S.K., Dixit, J., Modasir, S., Ishaq, M., 2012. Resource potential and scope of utiliza-
tion of renewable energy in Jammu and Kashmir, India. Renew. Energy 39, 24 29.
Long, W., Tate, R., Neuman, M., Manfreda, J., Becker, A., Anthonisen, N., 1998.
Respiratory symptoms in a susceptible population due to burning of agricultural residue.
Chest 113 (2), 351.
Mehta, C.R., Sharma, S., Nair, R., Singh, K.P., 2013. Impact of crop residue burning on envi-
ronment and human health. Indian Farming 63 (4), 24 25.
Mittal, S.K., Singh, N., Agarwal, N., Awasthi, A., Gupta, P.K., 2009. Ambient air quality
during wheat and rice crop stubble burning episodes in Patiala. Atmos. Environ. 43,
238 244.
