Since the low energy efficiency and rise in emissions by using fossil fuels, the hydrogen economy has been considered as a unique approach to resolve these problems, making hydrogen an attractive fuel. This book titled Hydrogen Energy: Production, Storage and Utilization describes various technologies of hydrogen production from different sources and storage in liquid, gaseous as well as in compound forms have also been covered in detail. It also highlights the various modes of transportation of hydrogen and its utilization in a variety of engineering applications such as automotive engines, fuel cells, electric power generation, and aerospace. The book also explores the safety challenges, handling issues and future scope.
This book:
- Covers the methods of hydrogen production including the bioconversion method.
- Explains the hydrogen storage technologies with proper illustrations.
- Includes engineering and non-engineering applications of hydrogen utilizations covering the most advanced generation of fuel cells, power generation for hybrid vehicles, and space applications.
- Presents the state-of-the-art research carried out in the domain of hydrogen production, storage, transportation, and utilization along with safety aspects.
- Discusses modes and methods of hydrogen transportation such as in gaseous form, liquid form, and solid form.
The book has a wide scope of reaching out to diverse readers including but not limited to industrial engineers, process engineers, researchers and academicians. The researcher fraternity will gain the benefit of being aware and selecting a similar recent research domain in the field of hydrogen production.
This book describes various technologies of hydrogen production from different sources and storage in liquid, gaseous as well as in compound forms have also been covered in detail. It also highlights the various modes of transportation of hydrogen and its utilization in a variety of engineering applications.
1. Introduction.
2. Universal Clean Sustainable Energy for Future
Hydrogen.
3. Hydrogen Energy: Addressing Challenges and Exploring Future
Prospects.
4. Environmentally Friendly and Cost-Effective Hydrogen Production
Strategy: Prospects, Challenges and Technology Development.
5. Thermochemical
conversion of biomass for hydrogen production.
6. Hydrogen production from
biomass: Harnessing Nature for Sustainable Energy.
7. Aqueous Phase Reforming
of Biomass Derived Feedstocks Towards the Design of Catalytic Systems for
the Production of Hydrogen.
8. Thermochemical Hydrogen Production Methods: A
Review.
9. Recent Technology and Challenges in Cost-Effective Hydrogen
Production from Renewable Energy Sources.
10. Design and Simulation of
Industrial Automation System for Hydrogen Production.
11. Storage of Hydrogen
in Solid State Materials.
12. Absorption and adsorption-based storage of
hydrogen as a fuel.
13. Assessment of materials for energy-efficient
low-pressure hydrogen storage.
14. Sustainable Supply Chain Practices in the
Emerging Hydrogen Transportation Industry.
15. Hydrogen Fuel in Sustainable
Transformation: A Comprehensive Review.
16. A Review on Hybridization and
Energy Management Strategies for Hydrogen based Fuel Cell Electric Vehicle
Applications.
17. Safety Challenges and Future Scope of Green Hydrogen for
the Energy Transition.
Dilshad Ahmad Khan is an Assistant Professor in the Department of Mechanical Engineering, NIT Hamirpur, India. He is a prominent academician and researcher. He is a Chartered Engineer (CEng) from Institution of Mechanical Engineers, London. He has received his PhD in Manufacturing from IIT Delhi, India in 2018 and Master of Technology from Aligarh Muslim University, India, in 2010. He has received his Bachelor of Engineering in Mechanical Engineering from Dr. B.R. Ambedkar University (formerly Agra University), India in 2006. He has published a good number of research articles in international journals and conferences. He got published several book chapters on various topics and has filed seven Indian patents too. He is the author/editor of 3 books. He has received various National and International Awards for his research and innovations including Gandhiyan Young Technological Innovation Award (GYTI) hosted by President House (Rashtrapati Bhawan) New Delhi. He has funded research projects. His research interests include Energy storage systems, advanced finishing/polishing processes, non-conventional machining, additive manufacturing and industrial automation.
Akhilesh Kumar Choudhary is working as an Assistant Professor in the Department of Mechanical Engineering at National Institute of Technology Hamirpur (HP) since 2018. He received Ph.D. degree in Mechanical Engineering from PDPM Indian Institute of Information Technology, Design and Manufacturing, Jabalpur. He received M.Tech degree from Motilal Nehru National Institute of Technology (MNNIT), Allahabad, U.P. and Bachelor degree from Jabalpur Engineering College Jabalpur, M.P. Prior to joining NIT Hamirpur, he was working as an Assistant Professor (NPIU) in the Department of Mechanical Engineering at Jabalpur Engineering College Jabalpur, Under the activity of TEQIP-III. He was also worked as a faculty member at National Institute of Technology, Raipur, for 2.5 years in Mechanical Engineering Department. His research interests include condition monitoring, Biofuel, Diesel engine and Hydrogen fuelled engine.
Deepak Sharma is an Assistant Professor in the Department of Mechanical Engineering, NIT Hamirpur (Himachal Pradesh). Prior to joining NIT Hamirpur, has served as a Contract faculty in the Department of Mechanical Engineering at NIT Silchar, Assam. He received his Doctoral Degree (PhD) in Thermal Engineering from National Institute of Technology Silchar in 2017. Earlier, he received his M. Tech from the same institute in 2013, and B. Tech from Gautam Buddha Technical University, Lucknow in the year of 2010. His research work got published in reputed national and international journals and conferences. His area of research is Thermal Energy storage, Renewable Energy, Nanofluid heat transfer, Single phase and Multiphase flow in channels, Combustion, Thermal Hydraulics in Nuclear Reactor.
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