Application of Phase Change Materials in Energy Storage and Conversion Systems
- 1st Edition - January 1, 2026
- Latest edition
- Authors: Mehdi Mehrpooya, Farzad Ghafoorian, Mahdi Alibeigi
- Language: English
Application of Phase Change Materials in Energy Storage and Conversion Systems delves into the use of phase change materials (PCMs) in various energy storage and conversion system… Read more
Application of Phase Change Materials in Energy Storage and Conversion Systems delves into the use of phase change materials (PCMs) in various energy storage and conversion systems. Starting with an explanation of renewable energy and thermal energy storage, the book comprises thirteen chapters that systematically cover PCM fundamentals and their modeling, design parameters for thermal systems, and factors influencing PCM storage capacity. Additional critical points include the exploration of PCM applications in thermal energy storage systems and buildings, the use of computational fluid dynamics (CFD) for PCM modeling, and optimization techniques for thermal energy storage systems.
This is a comprehensive resource for anyone interested in the theoretical and practical aspects of PCMs. Engineers, researchers, students, and system designers will find this book invaluable for understanding and utilizing PCMs in energy storage solutions.
This is a comprehensive resource for anyone interested in the theoretical and practical aspects of PCMs. Engineers, researchers, students, and system designers will find this book invaluable for understanding and utilizing PCMs in energy storage solutions.
- Explores the use of PCMs in renewable energy
- Contains the governing equations of heat transfer, energy thermodynamics, and computational fluid dynamics
- Presents advanced applications of PCMs in various industries and applications
Engineers, researchers, students, and designers of energy storage systems
1. Renewable energy systems and storage an overall view.
2. Thermal energy storage systems
3. What are Phase change materials?
4. PCM selection expediencies
5. PCM categorize
6. Basis for PCM modelling
7. Designing a Thermal energy storage system
8. Factors affecting PCM energy storage capacity
9. PCM applications as TES
10. State of the art PCM applications
11. PCM applications in buildings
12. CFD approach for PCM modelling
13. TES with PCM Optimization techniques
2. Thermal energy storage systems
3. What are Phase change materials?
4. PCM selection expediencies
5. PCM categorize
6. Basis for PCM modelling
7. Designing a Thermal energy storage system
8. Factors affecting PCM energy storage capacity
9. PCM applications as TES
10. State of the art PCM applications
11. PCM applications in buildings
12. CFD approach for PCM modelling
13. TES with PCM Optimization techniques
- Edition: 1
- Latest edition
- Published: January 1, 2026
- Language: English
MM
Mehdi Mehrpooya
Mehdi Mehrpooya is a Professor of Energy Engineering at the University of Tehran, where he heads the Division of Energy Technologies and leads the Hydrogen and Fuel Cell Laboratory. He specializes in energy, hydrogen technologies, and energy storage. A highly cited researcher, he has been recognized as a Clarivate Highly Cited Researcher since 2018 and has received multiple Outstanding
Researcher Awards. He has published widely, holds patents, and has led international collaborations in energy technology.
Affiliations and expertise
Professor, Faculty of New Sciences and Technologies, at the University of TehranFG
Farzad Ghafoorian
Farzad Ghafoorian holds a Master's degree in Mechanical Engineering from Iran University of
Science and Technology and is currently a Ph.D. candidate at the University of Colorado, Colorado Springs. He has authored over twenty papers on CFD of wind turbines, geothermal energy, and PCM applications in thermal control. He serves as a guest editor and reviewer for various journals and received the Best Researcher Award from ScienceFather for his contributions to the field.
MA
Mahdi Alibeigi
Mahdi Alibeigi is a researcher at the University of Tehran specializing in sustainable energy systems. His work focuses on machine learning in fluid mechanics, with interests in fuel cells, hydrogen production, enhanced heat transfer, and renewable energy optimization. He has published extensively in journals
Affiliations and expertise
PhD Candidate, University of Tehran