Hydrogen Energy Conversion and Management presents the challenges and solutions to the use of hydrogen as the significant energy
source of the future. With a focus on the theory and recent technological developments, this book comprehensively addresses the
production, storage, and real-world applications of hydrogen.
Divided into four sections, Section 1 provides an overview of hydrogen technology, including environmental sustainability and the
fundamentals of the hydrogen economy and future energy security. Section 2 examines the latest technologies for efficient and costeffective
production of hydrogen, while Section 3 examines the latest technologies for efficient storage and transportation. Finally, Section 4 critically analyzes the challenges, solutions, and implementation prospects for a hydrogen-based fuel economy.
Hydrogen Energy Conversion and Management is an invaluable resource for researchers and practitioners involved in the hydrogen economy and for graduates and research students on multidisciplinary subjects involving renewable energy.
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Table of Contents
- Evolution of hydrogen energy and its potential opportunities around the globe
- Hydrogen deployment potential in Colombia: an opportunity to decarbonize and diversify the economy
- Hydrogen production by electrolysis: A sustainable pathway
- Hydrogen production from municipal solid waste using gasification method
- Technoeconomic prospects of green hydrogen production
- Energy and exergy analysis of blue hydrogen production and conversion
- Proton exchange membrane fuel cell system integration, modeling, and simulation for energy-efficient electric vehicle
- Techno-economic analysis of a heat and power combination system based on hybrid photovoltaic-fuel cell systems using hydrogen as an energy vector
- Hydrogen energy storage and transportation challenges and recent advances: a review
- Application of multiphase heat transfer for efficient hydrogen storage and recovery
- Large-scale hydrogen storage using underground hydrogen storage, metal hydride storage, and other emerging technologies
- Hydrogen-based automotive applications: a promising future
- Hydrogen use in high-efficiency compression ignition engines
Authors
Mohammad Masud Kamal Khan School of Engineering, Computer and Mathematical Sciences, Auckland University of Technology, Auckland-1010, New Zealand. Professor Masud Khan is currently the Head of the Mechanical Engineering Department at Auckland University of Technology, NewZealand. He previously served as the Head of Department and School, Deputy Dean Research, School of Engineering and Technology
at Central Queensland University, Australia. His research and teaching interests are in thermofluids engineering, energy-efficient and
environmentally sustainable technologies including production, storage, and performance assessment of renewable energy, hydrogen,
and biofuels produced from various feedstock. He has made significant contributions in research providing fundamental solutions to
many complex projects, engineering education, and academic leadership. He spent three visiting professorial appointments in Canada
and the United States of America. He has over 410 publications including 3 edited books and 27 book chapters. Abul Kalam Azad School of Engineering and Technology Central Queensland University, Melbourne Campus, VIC-3000, Australia. Dr. Kalam Azad is a Lecturer at CQUniversity, Melbourne, Australia. His field of interest is renewable energy technologies, energy
conversion, and their relevant industrial applications. He has published over a hundred scientific articles, including six edited books
with Elsevier. The recognition of his research has been proved through a high number of citations and h-index both in Scopus and Google
Scholar. He also works as a Section Editor: Sustainable Energy and Energies journal. Currently, he is a member of different professional bodies throughout the world. Amanullah Maung Than Oo School of Engineering, Macquarie University, Sydney, NSW-2109, Australia. Professor Aman Oo is currently the Dean of Engineering at Macquarie University. Previously, he was the Dean and Head of School of
Engineering, Computer and Mathematical Sciences at Auckland University of Technology, New Zealand, and the Dean of Engineering at
Deakin University, Australia. He is a Professor of Electrical Engineering and has made significant research contributions to electrical
power engineering and renewable energy, engineering education, and leadership. He has published more than 350 scholarly peerreviewed
articles. Aman has research interests and expertise in microgrid and energy storage system integration, hydrogen, smart
grid communication, power system stability and control, energy management and efficiency, protection and security of smart grids,
sustainable operation, and control of microgrids as well as in engineering education.