Developing Advanced Technologies for Hydrogen Storage and Production

Tolga Taner, Hafiz Muhammad Ali

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English

Engineering Science Reference
17 June 2025

Energy; Chemistry; Power generation & distribution

Hydrogen is utilized as a raw material in various sectors, and it is anticipated that hydrogen generation will play a major part in the future implementation of hydrogen energy economy. Hydrogen energy systems, in addition to being a green, clean energy source with high efficiency, have started to gain importance with new technological developments. The capacity of energy to fulfill rising demand and to reach it quickly generates major crises and issues on a worldwide scale. It is apparent that meeting the rising demand for energy will become more challenging in the future. Developing Advanced Technologies for Hydrogen Storage and Production covers energy systems, focusing on hydrogen. It sheds light on the anticipation that hydrogen energy, the energy of the future, will satisfy the changing energy demand. Covering topics such as green computing, hydrogen storage, and sustainability, this book is an excellent resource for energy researchers and scientists, chemical engineers, material scientists, renewable energy professionals, policy makers and regulators, environmental scientists, educators and students, and more.

Edited by: Tolga Taner, Hafiz Muhammad Ali
Imprint: Engineering Science Reference
Country of Publication: United States
Dimensions: Height: 254mm, Width: 178mm,
ISBN: 9798369349205
Pages: 286
Publication Date: 17 June 2025
Audience: College/higher education , Professional and scholarly , Primary , Undergraduate
Format: Paperback
Publisher's Status: Active

Tolga Taner is a Professor at Aksaray University in Türkiye. He has been the Head of Motor Vehicles and Transportation Technologies since 2012. He has been working as an academic and industrial engineering for 26 years. He has many academic articles (SCI index) and books in the fields of energy, exergy, biogas, renewable energy, hydrogen, and fuel cell. He is an Editor and a reviewer for many journals (SCI index). He works as a Mentor/Supervisor in some industrial factories. After graduating from the Department of Mechanical Engineering in 1998, he received his PhD in Mechanical Engineering from the Faculty of Engineering of Ankara Gazi University in 2013. He worked as a Lecturer (Part-Time) in the Middle East Technical (METU) between 2003-2006. In 2020, 2021, 2022, 2023, and 2024 (5th times), he was listed in the “2% World's Most Influential Scientists”, “Mechanical Engineering-Energy field” field published by Stanford University. He has taken part in many research projects as a coordinator and researcher. Hafiz Muhammad Ali presently serves as an associate professor and director of the renewable energy laboratory at the Mechanical Engineering Department at King Fahd University of Petroleum and Minerals, Saudi Arabia. He possesses a PhD degree in mechanical engineering from the School of Engineering and Materials Science at Queen Mary University of London, UK. Dr. Ali served as a postdoctoral researcher at the Water and Energy Laboratory at the University of California, Merced, United States. Dr. Ali conducted substantial research in thermal engineering and served as the director of the Thermal and Clean Energy Research Laboratory, the Renewable Energy Research and Development Centre, and the Heat & Mass Transfer and Refrigeration Laboratory at the University of Engineering and Technology Taxila, Pakistan. He has authored over 300 articles, numerous books, and book chapters. He has actively engaged in delivering keynote and invited presentations at numerous international conferences. Dr. Ali has received numerous worldwide accolades, particularly the Highly Cited Researcher Award from Clarivate. He serves as an editorial board member for multiple international journals, including the Journal of Thermal Analysis and Calorimetry, Applied Nanoscience, Energy Resources: Part A, Heat Transfer, Journal of Thermal Science, and the Journal of Mechanical Engineering.