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Elsevier

Advanced Thermal Storage Technologies for Sustainable Energy Applications

  • 1st Edition - November 1, 2026
  • Latest edition
  • Authors: Huijin Xu, Maziar Deghan, Tao Xu, Cancan Zhang, Qinghua Yu, Xiaofeng Xu
  • Language: English

Advanced Thermal Storage Technologies for Sustainable Energy Applications explores the forefront of thermal storage technologies for renewable energy applications. Authored by a t… Read more

Description

Advanced Thermal Storage Technologies for Sustainable Energy Applications explores the forefront of thermal storage technologies for renewable energy applications. Authored by a team of experts in the field, this book encapsulates the most significant scientific contributions and contents that offer detailed insights into various thermal storage methods and their applications. From advanced materials in thermal storage to innovations in solid-solid latent thermal storage, each chapter presents cutting-edge research and case studies that push the boundaries of sustainable energy solutions. This detailed exploration of thermal energy storage begins with an introduction to thermal storage for renewables, followed by discussions on advanced materials, sensible molten-salt thermal storage, and solid-solid latent thermal storage. The book covers sorption thermal storage technology, thermochemical heat storage advancements, and integration with phase change materials. With a comprehensive overview of heat-pump-integrated thermal storage and Carnot battery systems, readers gain a deep understanding of optimizing energy storage for low-grade heat recovery applications. The conclusion and future outlook section provides valuable insights into the evolving landscape of thermal storage technologies.

Advanced Thermal Storage Technologies for Sustainable Energy Applications caters to a diverse audience of researchers, engineers, and policymakers seeking to enhance their knowledge in renewable energy utilization. The book addresses the pressing need for updated resources in the face of rapid technological advancements and the increasing emphasis on energy efficiency and sustainability. By offering a holistic view of thermal storage methods and practical applications, this book equips readers with the tools to navigate the complexities of thermal energy storage technology and implement effective solutions in the ever-evolving renewable energy sector.

Key features

  • Analyzes cutting-edge thermal storage technologies for renewable energy applications
  • Explores advanced materials and innovative solutions in thermal energy storage
  • Discusses real-world case studies and applications for effective implementation
  • Evaluates the future outlook and trends in thermal storage technologies
  • Provides comprehensive insights for researchers, engineers, and policymakers in the renewable energy sector

Readership

Researchers, engineers, and policymakers in the renewable energy sector seeking detailed insights into cutting-edge thermal storage technologies and their applications for sustainable energy solutions. This audience is interested in the latest advancements in materials and methods for optimizing energy storage systems

Table of contents

1. Introduction to thermal energy storage for renewables

2. Advanced materials in thermal storage: enhancing performance

3. Applications and advancements of sensible molten-salt thermal storage

4. Innovations and case studies for solid-solid latent thermal storage for Sustainable energy solutions

5. Integration and Optimization of latent heat/cold storage with PCM

6. Sorption thermal storage technology for low temperature renewable applications

7. Advancements in thermochemical heat storage for renewables

8. Heat-pump-integrated thermal storage and Carnot battery for low-grade heat recovery

9. Conclusion and future outlook

Product details

  • Edition: 1
  • Latest edition
  • Published: November 1, 2026
  • Language: English

About the authors

HX

Huijin Xu

Huijin Xu is a professor at Shanghai Maritime University. He has achieved remarkable success in the academic field. His research interests are broad and deep, mainly focusing on cutting-edge fields such as thermal storage, heat transfer in porous media, sustainable marine energy utilization, and shipping carbon capture. He holds a number of invention patents, which provide innovative solutions for the application of related technologies. He has achieved fruitful results in academic research and has published many influential articles covering various aspects such as thermal chemical reactions, membrane separation, porous media characteristics, and energy system optimization. His research not only has theoretical value but also provides useful guidance for practical applications
Affiliations and expertise
Shanghai Maritime University, China

MD

Maziar Deghan

Maziar Deghan is an associate professor in the Energy Department of the Materials and Energy Research Center (MERC) in Iran. He is also a professional HVAC engineer and has been a member of the "Iranian Construction Engineering Association" since 2016. His research interests are extensive, including solar heating, cooling and photovoltaics, desalination, energy storage, green and low-energy buildings, CFD (heat and fluid flows), and transport phenomena in porous media. Dehghan has achieved remarkable academic accomplishments. He graduated from a well-known university in Iran with a Ph.D. in Mechanical Engineering (Energy Conversion). He has held multiple research positions, such as the director of the Solar Energy Research Group, and is also an invited editor and reviewer for multiple journals. In short, he is an outstanding scholar and professional in the field of thermal energy storage and solar energy.
Affiliations and expertise
Energy Department of the Materials and Energy Research Center (MERC), Iran

TX

Tao Xu

Tao Xu is currently an associate professor with the School of Electrical and Information Engineering, Tianjin University. China. She received her M.Sc. and Ph.D degrees in electrical engineering from the University of Liverpool and the University of Plymouth, UK in 2003 and 2007, respectively. She then became a Post-Doc researcher in the New and Renewable Energy Group at the University of Durham, UK. She has carried out research which concentrates on the challenges associated with the widespread integration and control of distributed renewables. She has published many papers in smart grids in international leading journals, and has acted as PI in a number of international collaborations on microgrids.
Affiliations and expertise
Associate Professor, School of Electrical and Information Engineering, Tianjin University, China

CZ

Cancan Zhang

Dr. Cancan Zhang is a professor and doctoral supervisor at Beijing University of Technology, and he once visited UIUC in the United States as a visiting scholar. He holds multiple academic positions and has presided over numerous national and provincial-level projects. He has published more than 60 papers, including 45 SCI papers, and has been authorized more than 10 patents. He has participated in the formulation of 2 national standards and 3 group industry standards. His research fields are extensive, including heat exchangers, collectors, heat exchangers, refrigeration systems, molten salt energy storage, etc. He serves as an editorial board member of multiple journals and has won many honors, such as the second prize of Henan Science and Technology Progress Award and the second prize of the Innovation Competition of the Ministry of Industry and Information Technology. He has made remarkable achievements in the academic and scientific research fields and has contributed to the development of related fields
Affiliations and expertise
Beijing University of Technology, China

QY

Qinghua Yu

Dr. Qinghua Yu has a wide range of research interests, mainly including thermal storage, thermal management of batteries and electric vehicles, enhanced heat and mass transfer, hydrogen, and fuel cells. He has achieved remarkable results in academic research and has published many high-level academic papers, covering various aspects such as the degradation and polarization curve prediction of proton exchange membrane fuel cells, the discharge performance and thermoelectric conversion efficiency analysis of thermally regenerative ammonia-based flow batteries, the analysis of the heat charging and release processes in phase change material energy storage floor heating systems, and the performance optimization of plate-fin heat exchangers.
Affiliations and expertise
Wuhan University of Technology, China

XX

Xiaofeng Xu

Xu Xiaofeng serves as a R&D engineer at Shanghai Highly Electric Appliance Co., Ltd. He has conducted postdoctoral research at Shanghai Jiao Tong University and Shanghai Maritime University and obtained his doctorate from Shanghai Maritime University. His research interests are extensive, including compressor technology, refrigeration and cryogenic engineering, ice thermal storage and phase change energy storage technology, and the utilization and storage of new energy. He has achieved fruitful results in academic research, published many high-level papers, and holds a number of patents. He has led key R&D projects of the company and participated in many important projects. He has won several honors such as the Science and Technology Progress Award in Henan and Shanghai. In addition, he actively participates in academic exchanges and serves as a youth editorial board member and reviewer for several domestic and international journals
Affiliations and expertise
Shanghai Highly Electric Appliance Co., Ltd., China