New Dimensions in Production and Utilization of Hydrogen
Editat de Sonil Nanda, Dai-Viet N. Vo, Phuong Nguyen Trien Limba Engleză Paperback – 17 aug 2020
- Discusses the efficient usage of hydrogen as standalone fuel or feedstock in downstream processing
- Outlines key technologies for hydrogen production and their emerging applications
- Includes innovative approaches to the research and applications of hydrogen, including hydrotreating technologies, fuel cell vehicles and green fuel synthesis, the aerospace sector, pharmaceuticals, carbon dioxide hydrogenation, and bio-oils upgrading
- Serves as a reference for chemical, biochemical, and mechanical engineers, physicists, chemists, biologists, and biomedical scientists working in sustainable energy and materials
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Specificații
ISBN-13: 9780128195536
ISBN-10: 0128195533
Pagini: 444
Ilustrații: 130 illustrations (80 in full color)
Dimensiuni: 191 x 235 x 25 mm
Greutate: 0.76 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128195533
Pagini: 444
Ilustrații: 130 illustrations (80 in full color)
Dimensiuni: 191 x 235 x 25 mm
Greutate: 0.76 kg
Editura: ELSEVIER SCIENCE
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Cuprins
1. Hydrogen: Fuel of the Near Future
2. Application of Industrial Solid Wastes in Catalyst and Chemical Sorbent Development for Hydrogen/Syngas Production by Conventional and Intensified Steam Reforming
3. Recent Progress in Ethanol Steam Reforming for Hydrogen Generation
4. Hydrogen Production from Chemical Looping Reforming: Current Status and Future Perspective
5. Intensified Processes of Steam Reforming and their Materials for Hydrogen Production
6. Water-gas shift: Effect of Na loading on Pt/m-zirconia catalysts for low temperature shift for the production and purification of hydrogen
7. An Overview of Water Electrolysis Technologies for the Production of Hydrogen
8. Photocatalytic Reforming Towards a Sustainable Hydrogen Production over Titania-based Photocatalysts
9. Current Status on the Hydrogenation of Carbon Dioxide
10. Upgrading Pyrolysis-derived Bio-oils via Catalytic Hydrodeoxygenation: An Overview of Advanced Nanocatalysts
11. New Developments in Hydrogen Fuel Cells
12. Hydrogen Utilization: Benefits of Fuel Cell-Battery Hybrid Vehicles
13. Application of Carbon-Based Smart Nanocomposites for Hydrogen Production: Current Progress, Challenges and Prospects
14. Novel Materials and Technologies for Hydrogen Storage
15. Impact of Synchrotron on Alternate Fuels Sector with Special Focus on Hydrogen Energy
2. Application of Industrial Solid Wastes in Catalyst and Chemical Sorbent Development for Hydrogen/Syngas Production by Conventional and Intensified Steam Reforming
3. Recent Progress in Ethanol Steam Reforming for Hydrogen Generation
4. Hydrogen Production from Chemical Looping Reforming: Current Status and Future Perspective
5. Intensified Processes of Steam Reforming and their Materials for Hydrogen Production
6. Water-gas shift: Effect of Na loading on Pt/m-zirconia catalysts for low temperature shift for the production and purification of hydrogen
7. An Overview of Water Electrolysis Technologies for the Production of Hydrogen
8. Photocatalytic Reforming Towards a Sustainable Hydrogen Production over Titania-based Photocatalysts
9. Current Status on the Hydrogenation of Carbon Dioxide
10. Upgrading Pyrolysis-derived Bio-oils via Catalytic Hydrodeoxygenation: An Overview of Advanced Nanocatalysts
11. New Developments in Hydrogen Fuel Cells
12. Hydrogen Utilization: Benefits of Fuel Cell-Battery Hybrid Vehicles
13. Application of Carbon-Based Smart Nanocomposites for Hydrogen Production: Current Progress, Challenges and Prospects
14. Novel Materials and Technologies for Hydrogen Storage
15. Impact of Synchrotron on Alternate Fuels Sector with Special Focus on Hydrogen Energy
Recenzii
"This book is the gradual increase of population and the consequential rise in the energy demands in recent years have led to the overwhelming use of fossil fuels. Hydrogen has recently gained substantial interest because of its outstanding features to be used as a clean energy carrier and energy vector. Moreover, hydrogen appears to be an effective alternative to tackle the issues of energy security and greenhouse gas emissions given that it is widely recognized as a clean fuel with high energy capacity. Hydrogen can be produced by various techniques such as thermochemical, hydrothermal, electrochemical, electrolytic, biological, and photocatalytic methods, as well as hybrid systems." --ICP