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Full Description
Green Hydrogen and Fuel Cell Technology: Powering a Sustainable Future provides a comprehensive overview of sustainable energy systems, covering the fundamental science, engineering, policy, and economic aspects. It explores hydrogen properties, various production methods—including water electrolysis, biomass gasification, and photobiological techniques—and highlights advanced electrolyzer technologies such as AEM and SOECs. The publication also delves into catalyst innovations for solar-to-hydrogen conversion and examines multiple storage options like solid-state, liquid organic carriers, ammonia, and cryogenic systems. The book emphasizes infrastructure development, with a focus on hydrogen hubs, pipelines, and port facilities, particularly in the context of India's initiatives. It analyzes different fuel cell types, their operational principles, design considerations, and emerging materials like self-healing components. Applications extend beyond transportation to backup power, marine, aviation, and distributed generation. Recent innovations and future trends are highlighted, including next-generation electrolyzers, modular systems, integrated infrastructure, and advanced storage solutions, supported by case studies and environmental assessments.
Designed for researchers and industry professionals, this resource clarifies complex concepts through visuals and real-world examples. It offers insights into emerging trends such as electrolyzer scaling, decentralized production, and digitization, emphasizing practical applications, environmental benefits, and economic impacts. Ultimately, it aims to inspire future leaders by showcasing the transformative potential of green hydrogen and fuel cell technologies in advancing a sustainable energy future.
Contents
Part I: Fundamentals of Green Hydrogen and Fuel Cell
1. Introduction to Green Hydrogen & Fuel Cells: Green & Clean Sustainable Energy for Future Energy Demand
2. History & Evolution (Current & Future Trends) of Green Hydrogen and Fuel Cells Technology
3. Green Hydrogen and Fuel Cells: Production and Classification
4. Green Hydrogen and Fuel Cells: Process, Technologies, and Challenges
Part II: Green Hydrogen and Fuel Cell: Materials and Technology
5. Green Hydrogen and Fuel Cells: Methods, Catalysis and Water Splitting Techniques
6. Alkaline, PEM, and Solid Oxide Electrolysis Technologies for Green Hydrogen Production
7. Fuel Cell Core Components, Electrodes Fabrication Techniques and Structures for Green Hydrogen Production
8. Green Hydrogen and Fuel Cell Membranes Materials, Stack, Electrolytes Properties and Performance
9. Green Hydrogen & Fuel Cells: Advanced Nanomaterials and Integration with Renewable Energy Sources
Part III: Applications of Green Hydrogen and Fuel Cell: Challenges and Future Directions
10. Green Hydrogen Storage, Transportation, Distribution and Fueling Infrastructure
11. Green Hydrogen and Fuel Cell: Stationary Power Generation, and Portable Power Devices
12. Green Hydrogen and Fuel Cell: Applications in Transportation
13. Life Cycle Assessment and Economic Feasibility of Green Hydrogen and Fuel Cell Systems
14. Entrepreneurial Opportunities Green Hydrogen and Fuel Cell Technology: Circular Economy and Its Development
15. Safety Standards and Risk Management in Hydrogen Storage and Transportation
