Innovations in Thermochemical Technologies for Biofuel Processing
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Innovations in Thermochemical Technologies for Biofuel Processing
Nanda, Sonil; Vo, Dai-Viet N.
Elsevier - Health Sciences Division
03/2022
338
Mole
Inglês
9780323855860
15 a 20 dias
1000
Descrição não disponível.
Section 1: Biomass Feedstocks: Classification, Characterization and Candidacy 1. Recent progress in the characterization of feedstocks and products for design and optimization of biomass thermochemical conversions 2. State-of-the-art approaches in biomass conversion to fuels and chemicals 3. Upcycling biomass resources into fuels and chemicals to support sustainability
Section 2: Biomass-to-Liquid, Biomass-to-Gas and Gas-to-Liquid Technologies 4. Production of solid fuel and bio-oil for energy application via slow, fast and intermediate pyrolysis processes 5. Progress in biomass fast pyrolysis technique: Outlook of modern experimental and theoretical approaches 6. Biofuel production with integrated pyrolysis and catalytic upgrading system 7. Thermochemical valorization of oil palm biomass to value-added products: A biorefinery concept 8. Progress of biomass air gasification to produce energy-dense synthesis gas 9. Hydrothermal gasification of biomass and organic wastes for hydrogen production: Advances, Challenges and Prospects
Section 3: Reforming and Fuel Upgrading Technologies 10. Clean and sustainable biofuels through syngas fermentation: Challenges and opportunities 11. Hydrogen and carbon co-generation from catalytic methane decomposition: Current progress and future trends 12. Artificial neural network modeling method for forecasting syngas generation from reforming processes 13. Carbon-based catalyst in the production of biodiesel: A review 14. Upgrading bio-hydrogenated diesel from palm-fatty acid with self-reliable hydrogen synthesis
Section 2: Biomass-to-Liquid, Biomass-to-Gas and Gas-to-Liquid Technologies 4. Production of solid fuel and bio-oil for energy application via slow, fast and intermediate pyrolysis processes 5. Progress in biomass fast pyrolysis technique: Outlook of modern experimental and theoretical approaches 6. Biofuel production with integrated pyrolysis and catalytic upgrading system 7. Thermochemical valorization of oil palm biomass to value-added products: A biorefinery concept 8. Progress of biomass air gasification to produce energy-dense synthesis gas 9. Hydrothermal gasification of biomass and organic wastes for hydrogen production: Advances, Challenges and Prospects
Section 3: Reforming and Fuel Upgrading Technologies 10. Clean and sustainable biofuels through syngas fermentation: Challenges and opportunities 11. Hydrogen and carbon co-generation from catalytic methane decomposition: Current progress and future trends 12. Artificial neural network modeling method for forecasting syngas generation from reforming processes 13. Carbon-based catalyst in the production of biodiesel: A review 14. Upgrading bio-hydrogenated diesel from palm-fatty acid with self-reliable hydrogen synthesis
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Biofuels; Thermochemical biomass conversion technologies; Pyrolysis; Gasification; Catalytic Reforming; Liquefaction; Transesterification; Bio-oil; Biodiesel; Syngas
Section 1: Biomass Feedstocks: Classification, Characterization and Candidacy 1. Recent progress in the characterization of feedstocks and products for design and optimization of biomass thermochemical conversions 2. State-of-the-art approaches in biomass conversion to fuels and chemicals 3. Upcycling biomass resources into fuels and chemicals to support sustainability
Section 2: Biomass-to-Liquid, Biomass-to-Gas and Gas-to-Liquid Technologies 4. Production of solid fuel and bio-oil for energy application via slow, fast and intermediate pyrolysis processes 5. Progress in biomass fast pyrolysis technique: Outlook of modern experimental and theoretical approaches 6. Biofuel production with integrated pyrolysis and catalytic upgrading system 7. Thermochemical valorization of oil palm biomass to value-added products: A biorefinery concept 8. Progress of biomass air gasification to produce energy-dense synthesis gas 9. Hydrothermal gasification of biomass and organic wastes for hydrogen production: Advances, Challenges and Prospects
Section 3: Reforming and Fuel Upgrading Technologies 10. Clean and sustainable biofuels through syngas fermentation: Challenges and opportunities 11. Hydrogen and carbon co-generation from catalytic methane decomposition: Current progress and future trends 12. Artificial neural network modeling method for forecasting syngas generation from reforming processes 13. Carbon-based catalyst in the production of biodiesel: A review 14. Upgrading bio-hydrogenated diesel from palm-fatty acid with self-reliable hydrogen synthesis
Section 2: Biomass-to-Liquid, Biomass-to-Gas and Gas-to-Liquid Technologies 4. Production of solid fuel and bio-oil for energy application via slow, fast and intermediate pyrolysis processes 5. Progress in biomass fast pyrolysis technique: Outlook of modern experimental and theoretical approaches 6. Biofuel production with integrated pyrolysis and catalytic upgrading system 7. Thermochemical valorization of oil palm biomass to value-added products: A biorefinery concept 8. Progress of biomass air gasification to produce energy-dense synthesis gas 9. Hydrothermal gasification of biomass and organic wastes for hydrogen production: Advances, Challenges and Prospects
Section 3: Reforming and Fuel Upgrading Technologies 10. Clean and sustainable biofuels through syngas fermentation: Challenges and opportunities 11. Hydrogen and carbon co-generation from catalytic methane decomposition: Current progress and future trends 12. Artificial neural network modeling method for forecasting syngas generation from reforming processes 13. Carbon-based catalyst in the production of biodiesel: A review 14. Upgrading bio-hydrogenated diesel from palm-fatty acid with self-reliable hydrogen synthesis
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
