This book comprehensively and systematically demonstrates the theory and practice of designing, synthesizing and improving the performance of fuels. The contents range from polycyoalkane fuels, strained fuels, alky-diamondoid fuels, hypergolic and nanofluid fuels derived from fossil and biomass. All the chapters together clearly describe the important aspects of high-energy-density fuels including molecular design, synthesis route, physiochemical properties, and their application in improving the aerocraft performance. Vivid schematics and illustrations throughout the book enhance the…mehr
This book comprehensively and systematically demonstrates the theory and practice of designing, synthesizing and improving the performance of fuels. The contents range from polycyoalkane fuels, strained fuels, alky-diamondoid fuels, hypergolic and nanofluid fuels derived from fossil and biomass. All the chapters together clearly describe the important aspects of high-energy-density fuels including molecular design, synthesis route, physiochemical properties, and their application in improving the aerocraft performance. Vivid schematics and illustrations throughout the book enhance the accessibility to the relevant theory and technologies. This book provides the readers with fundamentals on high-energy-density fuels and their potential in advanced aerospace propulsion, and also provides the readers with inspiration for new development of advanced aerospace fuels.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
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Inhaltsangabe
1. Introduction 2. Development History and Basics of Aerospace Fuels 2.1 Introduction 2.2 General Properties and Requirements of Aerospace Fuels 2.3 Development of Aerospace Fuels 2.4 High-Energy-Density Fuels 2.5 Non-Petroleum Fuels 3. Design and Synthesis of High-Density Polycyoalkane Fuels 3.1 Introduction 3.2 Cycloaddition 3.3 Hydrogenation 3.4 Isomerization 3.5 Other Reactions and Procedures 4. Design and Synthesis of High-Density Diamondoid Fuels 4.1 Introduction 4.2 Synthesis of Alkyl-Diamondoids via Acid-Catalyzed Rearrangement 4.3 Synthesis of Alkyl-Diamondoids via IL-Catalyzed Rearrangement 4.4 Synthesis of Alkyl-Diamondoids via Zeolite-Catalyzed Rearrangement 4.5 Alkylation and Other Chemical Synthesis Methods 4.6 Basic Properties of Alkyl-Diamondoids 5. Design and Synthesis of High-Energy Strained Fuels 5.1 Introduction 5.2 Photocatalytic Synthesis of Quadricyclane 5.3 Cyclopropanation 5.4 Spiro and Caged Fuels 6. Design and Synthesis of High-Density Fuels from Biomass 6.1 Introduction 6.2 Carbon-Increasing Reaction Strategies 7. Design and Synthesis of Nanofluid Fuels 7.1 Introduction 7.2 Synthesis and Properties of Nanofluid Fuels 7.3 Methods to Evaluate Stability of Nanofluids 7.4 Approaches to Enhance Stability of Nanofluids 7.5 Typical High-Energy Nanofluid Fuels 7.6 Physical Properties of Nanofluid Fuels 7.7 Formulation and Synthesis of Gelled Fuels 7.8 Rheological Behavior 7.9 Atomization Behavior 7.10 Combustion Behavior 8. Design and Synthesis of Green Hypergolic Liquid Fuels 8.1 Introduction 8.2 Development History of Hypergolic Ionic Liquids 8.3 Physicochemical Properties of Hypergolic Ionic Liquids 8.4 Hypergolic Ionic Liquids 9. Combustion Properties of Fuels and Method to Improve Them 9.1 Introduction 9.2 Typical Equipment Used in Combustion Experiment 9.3 Combustion and Ignition Characters 9.4 Methods to Enhance Ignition and Combustion 9.5 Combustion Mechanism of Nanofluid Fuels
1. Introduction 2. Development History and Basics of Aerospace Fuels 2.1 Introduction 2.2 General Properties and Requirements of Aerospace Fuels 2.3 Development of Aerospace Fuels 2.4 High-Energy-Density Fuels 2.5 Non-Petroleum Fuels 3. Design and Synthesis of High-Density Polycyoalkane Fuels 3.1 Introduction 3.2 Cycloaddition 3.3 Hydrogenation 3.4 Isomerization 3.5 Other Reactions and Procedures 4. Design and Synthesis of High-Density Diamondoid Fuels 4.1 Introduction 4.2 Synthesis of Alkyl-Diamondoids via Acid-Catalyzed Rearrangement 4.3 Synthesis of Alkyl-Diamondoids via IL-Catalyzed Rearrangement 4.4 Synthesis of Alkyl-Diamondoids via Zeolite-Catalyzed Rearrangement 4.5 Alkylation and Other Chemical Synthesis Methods 4.6 Basic Properties of Alkyl-Diamondoids 5. Design and Synthesis of High-Energy Strained Fuels 5.1 Introduction 5.2 Photocatalytic Synthesis of Quadricyclane 5.3 Cyclopropanation 5.4 Spiro and Caged Fuels 6. Design and Synthesis of High-Density Fuels from Biomass 6.1 Introduction 6.2 Carbon-Increasing Reaction Strategies 7. Design and Synthesis of Nanofluid Fuels 7.1 Introduction 7.2 Synthesis and Properties of Nanofluid Fuels 7.3 Methods to Evaluate Stability of Nanofluids 7.4 Approaches to Enhance Stability of Nanofluids 7.5 Typical High-Energy Nanofluid Fuels 7.6 Physical Properties of Nanofluid Fuels 7.7 Formulation and Synthesis of Gelled Fuels 7.8 Rheological Behavior 7.9 Atomization Behavior 7.10 Combustion Behavior 8. Design and Synthesis of Green Hypergolic Liquid Fuels 8.1 Introduction 8.2 Development History of Hypergolic Ionic Liquids 8.3 Physicochemical Properties of Hypergolic Ionic Liquids 8.4 Hypergolic Ionic Liquids 9. Combustion Properties of Fuels and Method to Improve Them 9.1 Introduction 9.2 Typical Equipment Used in Combustion Experiment 9.3 Combustion and Ignition Characters 9.4 Methods to Enhance Ignition and Combustion 9.5 Combustion Mechanism of Nanofluid Fuels
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