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Full Description
This book, part of the Clean Energy Production Technologies book series, explores the crucial role of low-carbon hydrogen in the global shift towards sustainable energy solutions, addressing the need to mitigate climate change. Hydrogen is seen as a versatile energy carrier capable of decarbonizing multiple industries, including power generation, transportation, and manufacturing. The chapters discuss hydrogen production methods, such as electrolysis and biomass conversion, harnessing renewable energy sources like solar and wind. It also examines the challenges involved in making hydrogen a mainstream solution, including economic viability, policy frameworks, and societal acceptance. The book provides a comprehensive understanding of how hydrogen production aligns with sustainable energy goals, from technological advancements to its applications in various sectors. It explores topics, such as, emerging catalysts, hydrogen storage and transportation technologies, and the integration of carbon capture in hydrogen generation processes in depth. This book is valuable for researchers, energy professionals, policymakers, and students in the fields of renewable energy, environmental science, and sustainable technology.
Contents
1. Hydrogen Production with Low or Zero Carbon Emissions from Renewable and Fossil Resources.- 2. Harnessing Microalgae for Sustainable Hydrogen Production: Innovations, Obstacles and Future opportunities.- 3. Next-Generation Catalysts for Hydrogen Generation: Insights into Synthesis, Characterization, and Evaluation.- 4. Toward Clean Hydrogen: Emerging Carbon Capture and Conversion Technologies in the Energy Transition.- 5. Advanced Metal-Organic Frameworks for Selective Hydrogen Separation and Purification.- 6. Hydrogen Storage and Transportation: Advanced Materials, Technologies, and Future Perspectives.- 7. Hydrogen-Based Energy Storage in Power Grids: A Pathway to Renewable Integration and Decarbonization.- 8. Hydrogen-Powered Vehicles: A Transition to Sustainable Transportation Systems.- 9. Hydrogen for Industrial Decarbonization: Technological Advances and Socio-Technical Dynamics .- 10. Global Strategies for Hydrogen Energy: Policy Directions and Technology Pathways.- 11. Evaluating Hydrogen Penetration Scenarios in Future Energy Systems: Insights from Case Studies.- 12. Techno-Economic Analysis of Hydrogen Production Pathways: Status, Challenges, and Future Outlook.
