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Bioethanol has been conceived as a sustainable clean future energy source. To replace the fossils' fuels, it has to be produced at large and sustainable scale, which is only possible if the cellulosic biomass is mobilized for this purpose. This book describes workable strategies of isolating and cultivating microorganisms capable of saccharifying and fermenting the abundantly available renewable resource into ethanol exemplified in this investigation by Sugarcane Bagasse. Both bacteria and yeasts capable of simultaneous saccharification and fermentation at elevated temperatures appear to be…mehr

Produktbeschreibung
Bioethanol has been conceived as a sustainable clean future energy source. To replace the fossils' fuels, it has to be produced at large and sustainable scale, which is only possible if the cellulosic biomass is mobilized for this purpose. This book describes workable strategies of isolating and cultivating microorganisms capable of saccharifying and fermenting the abundantly available renewable resource into ethanol exemplified in this investigation by Sugarcane Bagasse. Both bacteria and yeasts capable of simultaneous saccharification and fermentation at elevated temperatures appear to be good candidates for obtaining bioethanol from cellulosic biomass. Ethanol tolerance and thermoduric nature of the microbes reported here are imperative features required for exploiting them for the provision of ethanol in a single bioreactor. The protocols described can be worked out for other agro/food industrial wastes rich in soluble and hydrolyzable carbohydrates.
Autorenporträt
Dr.Naureen Chaudhary completed her Ph.D. in 2008 from University of the Punjab, Lahore. Prof.Dr.Javed I Qazi supervises research of Ph.D. and graduate students of the Department. His main research areas focus Bioremediatoin, Bioenergy and Single cell protein. Biofuels' generation through solar energy managed process plants is under consideration.