Biowaste and Biomass in Biofuel Applications
portes grátis
Biowaste and Biomass in Biofuel Applications
Singh, Yashvir; Strezov, Vladimir; Negi, Prateek
Taylor & Francis Ltd
10/2024
300
Mole
9781032208619
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Chapter 1. Sustainability of Waste Cooking Oil for the Production of Biodiesel and Its Tribological Applications: A Review. Chapter 2. Application of Nanofluids in Solar Desalination Process: A Review. Chapter 3. Nanomaterials as Additives in Biodiesel. Chapter 4. Challenges and Future Prospects of Biofuel Generations: An Overview. Chapter 5. A Comparative Study of Physicochemical Properties and Performance Characteristics of Various Biodiesel Feedstock: An Overview. Chapter 6. Chemical Processing Techniques Related to Bio-Waste for Their Conversion to Biofuel. Chapter 7. The Effectiveness of Balanites aegyptiaca Oil Nanofluid Augmented with Nanoparticles as Cutting Fluids during the Turning Process. Chapter 8. Lignocellulose Biomass Pyrolysis for Bio-Oil Production: Biomass Pre-treatment Methods for Production of Drop-In Fuels. Chapter 9. Thermochemical Production of Bio-Oil: Downstream Processing Technologies for Bio-Oil Upgrading, Production of Hydrogen, and High Value-Added Products. Chapter 10. Free Fatty Acids and Their Role in CI Engines
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Vegetable Oil;Chemical Processing;Feedstock;Nanomterials;Solar Energy;Life Cycle Analysis;Moisture Content;CI Engine;Energy Sources;Diesel Fuel;WCO Biodiesel;WCO;Biodiesel Synthesis;BTE;Combustion Chamber;Solar Distillation System;Mahua Biodiesel;Bio-oil Yield;Bio-oil Upgrading;Chip Thickness;Tool Chip Contact Length;Bio-oil Composition;HTL;Hydrothermal Liquefaction Process;Catalytic Pyrolysis;Solar Desalination;Biomass Pre-treatment;Cottonseed Oil Methyl Ester;Oil Methyl Ester;Balanites Aegyptiaca;MQL
Chapter 1. Sustainability of Waste Cooking Oil for the Production of Biodiesel and Its Tribological Applications: A Review. Chapter 2. Application of Nanofluids in Solar Desalination Process: A Review. Chapter 3. Nanomaterials as Additives in Biodiesel. Chapter 4. Challenges and Future Prospects of Biofuel Generations: An Overview. Chapter 5. A Comparative Study of Physicochemical Properties and Performance Characteristics of Various Biodiesel Feedstock: An Overview. Chapter 6. Chemical Processing Techniques Related to Bio-Waste for Their Conversion to Biofuel. Chapter 7. The Effectiveness of Balanites aegyptiaca Oil Nanofluid Augmented with Nanoparticles as Cutting Fluids during the Turning Process. Chapter 8. Lignocellulose Biomass Pyrolysis for Bio-Oil Production: Biomass Pre-treatment Methods for Production of Drop-In Fuels. Chapter 9. Thermochemical Production of Bio-Oil: Downstream Processing Technologies for Bio-Oil Upgrading, Production of Hydrogen, and High Value-Added Products. Chapter 10. Free Fatty Acids and Their Role in CI Engines
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Vegetable Oil;Chemical Processing;Feedstock;Nanomterials;Solar Energy;Life Cycle Analysis;Moisture Content;CI Engine;Energy Sources;Diesel Fuel;WCO Biodiesel;WCO;Biodiesel Synthesis;BTE;Combustion Chamber;Solar Distillation System;Mahua Biodiesel;Bio-oil Yield;Bio-oil Upgrading;Chip Thickness;Tool Chip Contact Length;Bio-oil Composition;HTL;Hydrothermal Liquefaction Process;Catalytic Pyrolysis;Solar Desalination;Biomass Pre-treatment;Cottonseed Oil Methyl Ester;Oil Methyl Ester;Balanites Aegyptiaca;MQL
