Sustainable and Green Catalytic Processes for Renewable Fuel Production with Net-Zero Emissions describes the significance of catalysis for the sustainable production of biofuels and biochemicals, with a particular emphasis on the state-of-the-art catalysts and catalytic processes for "green and sustainable" production of fuels and chemicals from biomass feedstock. The book also offers a multidisciplinary, thorough, and insightful analysis of the problems that must be solved in order to develop sustainable fuel technologies and processes while also reporting on recent research developments and taking pertinent sustainability, economic, energy, and social impact issues into account.
1. Pyrolysis Bio-oil upgradation to fuels
2. Sustainable technologies for ethanol production from waste biomass
3. Synthetic diesel and gasoline fuels from carbon dioxide syngas derived from biomass gasification
4. Post combustion carbon dioxide gas conversion to methanol and DME
5. Post combustion carbon dioxide conversion to ethanol
6. Hydrogen production from hydrogen sulphide gas
7. Sustainable low temperature Ammonia production technologies
8. Hydrogen production from thermos-catalytic processes from renewable sources
9. Hydrogen production from biogas derived from waste biomass anaerobic digestion
10. Methanol production from biogas derived from waste biomass anaerobic digestion
11. Hydrogen production from ammonia cracking
12. Technologies to convert Lignocellulosic biomass to fuel components like DMF
13. Production of aromatics and olefins from biomass pyrolysis
14. A techno-economic analysis of green process routes for renewable fuels production
15. Life Cycle Assessment of various process routes including biological processes for renewable fuel production
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