Bioenergy generation from agricultural wastes and enrichment of end products  355


           Rajput, A.A., Zeshan, Visvanathan, C., 2018. Effect of thermal pretreatment on chemical
               composition, physical structure and biogas production kinetics of wheat straw. J.
               Environ. Manage. 221, 45 52.
           Ram, M., Mondal, M.K., 2018. Comparative study of native and impregnated coconut husk
               with pulp and paper industry waste water for fuel gas production. Energy 156,
               122 131.
           Raveendran, K., Ganesh, A., Khilar, K.C., 1995. Influence of mineral matter on biomass
               pyrolysis characteristics. Fuel 74, 1812 1822.
           Ren, S.J., Lei, H.W., Wang, L., Bu, Q., Chen, S.L., Wu, J., et al., 2013. The effects of torre-
               faction on compositions of bio-oil and syngas from biomass pyrolysis by microwave
               heating. Bioresour. Technol. 135, 659 664.
           Saini, J.S., Saini, R., Tewari, L., 2015. Lignocellulosic agricultural wastes as biomass feed-
               stocks for second-generation bioethanol production: concepts and recent developments.
               3 Biotech. 5, 337 353.
           Savova, D., Apak, E., Ekinci, E., Yardim, F., Petrov, N., Budinova, T., et al., 2001. Biomass
               conversion to carbon adsorbents and gas. Biomass Bioenergy 21, 133 142.
           Sellin, N., Krohl, D.R., Marangoni, C., Souza, O., 2016. Oxidative fast pyrolysis of banana
               leaves in fluidized bed reactor. Renew. Energy 96, 56 64.
           Shastri, Y., Hansen, A., Rodriguez, L., Ting, K.C., 2014. Engineering and Science of
               Biomass Feedstock Production and Provision. Springer, New York Heidelberg
               Dordrecht London.
           Soltes, E.J., Milne, T.A., 1988. Pyrolysis Oils From Biomass: Producing, Analyzing, and
               Upgrading. ACS Publications.
           Srivastava, V., Ismail, S.A., Singh, P., Singh, R.P., 2015. Urban solid waste management in
               the developing world with emphasis on India: challenges and opportunities. Rev.
               Environ. Sci. Bio/Technol. 14, 317 337.
           Sun, Y., Cheng, J., 2002. Hydrolysis of lignocellulosic materials for ethanol production: a
               review. Bioresour. Technol. 83, 1 11.
           Vassilev, S.V., Baxter, D., Andersen, L.K., Vassileva, C.G., Morgan, T.J., 2012. An overview
               of the organic and inorganic phase composition of biomass. Fuel 94, 1 33.
           Williams, O., Eastwick, C., Kingman, S., Giddings, D., Lormor, S., Lester, E., 2015.
               Investigation into the applicability of Bond work index (BWI) and Hardgrove grindabil-
               ity index (HGI) tests for several biomasses compared to Colombian La Loma coal. Fuel
               158, 379 387.
           Wyman, C.E., Dale, B.E., Elander, R.T., Holtzapple, M.T., Ladisch, M.R., Lee, Y.Y., 2005.
               Coordinated development of leading biomass pretreatment technologies. Bioresour.
               Technol. 96, 1959 1966.
           Xia, J., Yang, Y., Liu, C.G., Yang, S., Bai, F.W., 2019. Engineering Zymomonas mobilis for
               robust cellulosic ethanol production. Trends Biotechnol. Available from: https://doi.org/
               10.1016/j.tibtech.2019.02.002.
           Xiu, S., Shahbazi, A., 2012. Bio-oil production and upgrading research: a review. Renew.
               Sustain. Energy Rev. 16, 4406 4414.
           Yu, Y., Yeng, Y., Zuo, J., Ma, F., Yang, X., Zhang, X., et al., 2013. Improving the conver-
               sion of biomass in catalytic fast pyrolysis via white-rot fungal pretreatment. Bioresour.
               Technol. 134, 198 203.
           Zeitsch, K.J., 2000. The Chemistry of Technology of Furfural and its Many By-Products.,
               Vol. 13. Elsevier, New York.
           Zhang, J., Jia, B., 2018. Enhanced butanol production using Clostridium beijerinckii SE-2
               from the waste of corn processing. Biomass Bioenergy 115, 260 266.