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Informationen zum Autor Dr Ram B. Gupta is a Distinguished Chair Professor and Chair of the Chemical Engineering Graduate Program at Auburn University. He has published numerous research papers and holds several patents on biofuels, nanotechnology, hydrogen fuel, and supercritical fluid technology and is the recipient of several national awards. He is a Fellow of the Alabama Academy of Science. He served on the editorial advisory boards of Industrial and Engineering Chemistry Research and Nanomedicine: Nanotechnology, Biology and Medicine and is currently serving on the editorial boards of the Journal of Biomedical Nanotechnology, Research Letters in Nanotechnology, the Open Nanomedicine Journal, the International Journal of Chemical Engineering, and Research Letters in Chemical Engineering. His recent books are Nanoparticle Technology for Drug Delivery; Solubility in Supercritical Carbon Dioxide; Hydrogen Fuel: Production, Transport, and Storage; and Gasoline, Diesel, and Ethanol Biofuels from Grasses and Plants. Ayhan Demirbas is a Full Professor at Sila Science and Energy. He was a Professor of Energy Technologies Science at Karadeniz Technical University, Turkey, between 1991 and 2001, and at Selcuk University, Turkey, from 2003 to 2007. His research is mainly concerned with renewable and sustainable energy. Klappentext This book introduces readers to second-generation biofuels obtained from non-food biomass! such as forest residue! agricultural residue! and waste wood. Zusammenfassung The first-generation biofuels - ethanol from sugar or corn and biodiesel from vegetable oils - created to replace petroleum are already in the market! with limited success. However! alternatives to petroleum must be technically feasible! economically competitive! environmentally acceptable! and easily available. This book introduces readers to second-generation biofuels from non-food biomass. Inhaltsverzeichnis 1. Introduction; 2. Air pollution and global warming from the use of fossil fuels; 3. Renewable energy sources; 4. Biomass availability in the world; 5. Conventional ethanol production from corn and sugarcane; 6. Ethanol from biomass by fermentation; 7. Biodiesel from vegetable oils; 8. Diesel from biomass gasification followed by FT synthesis; 9. Bio-oil from biomass pyrolysis; 10. Bio-crude from biomass hydrothermal liquefaction; 11. Solar and wind energy for biofuel production; 12. Environmental impacts of biofuels; 13. Economic impact of biofuels; 14. Biofuel policy....
