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Full Description
This book provides an in-depth exploration of E-fuels and their potential to transform the transport sector. The book covers a range of critical topics, including the chemical kinetics of E-fuels, hydrogen production methods, and the role of ammonia as a sustainable fuel. It also compares E-fuels with electric vehicles in terms of their effectiveness in reducing emissions. Additionally, the book addresses the technological advancements in hydrogen production, fuel injection techniques, and electrofuels, while highlighting the integration of power electronics for efficient fuel production. The chapters include comprehensive analyses, experimental studies, and simulation results, offering valuable insights into sustainable fuel solutions for the future of transportation. Through its wide-ranging contributions, this book serves as a valuable resource for researchers, engineers, and policymakers focused on decarbonizing the transport sector.
Contents
Chapter 1: Introduction to Sustainable, Scalable and Storable E-Fuels for Decarbonising Transport Sector.- Chapter 2: Chemical Kinetic Modeling to Study the Ignition and Oxidation of E-Fuels.- Chapter 3: Different Hydrogen Production Methods and the As-sociated Potential Anthropogenic Hydrogen Releases along the Entire Hydrogen Value Chain.- Chapter 4: Green Hydrogen: A Review on Recent Advancement on Production and Storage Techniques.- Chapter 5: Integrated Power Electronics Solutions for Sustainable, Scalable, and.- Chapter 6: Storable E-Fuel Production in Decarbonizing Transport.- Chapter 7: Hydrogen Production Methods and Injection Techniques in Internal Combustion Engines.- Chapter 8: Thermodynamic Properties of an Oval Shape New Flame Casing Implemented/Deployed Over a Gas Stove Burner: A Simulation Study.- Chapter 9: E-Fuels and Electric Vehicles for Decarbonizing Transport Sector: A Comparative Analysis.- Chapter 10: Comprehensive Analysis of Electrofuels (e-fuels) as Sustainable Fuels from Renewable Electricity.- Chapter 11: Wear Assessment in Biodiesel-Fuelled Compression Ignition Engines: Impact on Critical Components.- Chapter 12: Sustainable Smart City and Artificial Intelligence: A Bibliometric Analysis.- Chapter 13: Comparative analysis of utilising diesohol and diesel-biohol blends in an diesel engine - An experimental approach.- Chapter 14: Challenges in the Integration of Ammonia and Hydrogen as Alternative Fuels in Internal Combustion Engines.
