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Advancements in Thermoelectric Modules. Harvesting Energy through Innovative Applications and Integrations. Emerging Technologies and Materials in Thermal Engineering

  • Book

  • July 2026
  • Elsevier Science and Technology
  • ID: 6251098
Advancements in Thermoelectric Modules: Harvesting Energy through Innovative Applications and Integrations addresses fundamental principles of thermoelectricity, materials selection, fabrication techniques, simulation methodologies, and diverse applications in various industries such as automotive, aerospace, energy, and electronics. Readers will benefit from the book's practical guidance, case studies, and in-depth analyses of emerging trends and future directions in thermoelectric technology. From optimizing thermoelectric module performance to integrating with renewable energy systems, this book provides a holistic view of harnessing waste heat recovery, energy harvesting, and temperature control through thermoelectric modules and their applications.

Researchers and engineers can access the latest research findings and optimization techniques while industry professionals will find guidance on system integration and economic feasibility. Educators and students will benefit from a comprehensive resource covering fundamental principles, practical applications, and emerging trends in thermoelectrics.

Table of Contents

1. Basic Theory of Thermoelectricity
2. Thermoelectric Materials
3. Fabrication of Thermoelectric Generators
4. Simulation of Thermoelectric Devices
5. Applications of Thermoelectric Modules for Hydrogen Production
6. Evaluating Performance of Thermoelectric Modules through Concentrated Solar Systems
7. Integration of TEG Module with Photovoltaic (PV) Solar Systems
8. Cooling of Photovoltaic (PV) Solar Cells via TEC Modules
9. Utilizing Thermoelectric Modules for Heat Recovery of Waste Heat
10. Integration of Micro-Channel Heat Pipes (MCHPs) and Thermoelectric Modules
11. Building Integrated Energy-Harvesting Systems with TEG Modules
12. Integration of PVT-PCM Systems with TEG Modules
13. Application of TEG in Evacuated Tube Solar Collectors (ETSCs)

Authors

Mohsen Sheikholeslami Babol Noshirvani University of Technology, Babol, Iran.

Dr. Mohsen Sheikholeslami is the Head of the Renewable Energy Systems and Nanofluid Applications in Heat Transfer Laboratory at the Babol Noshirvani University of Technology, in Iran. He was the first scientist to develop a novel numerical method (CVFEM) in the field of heat transfer and published a book based on this work, entitled "Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer". He was selected as a Web of Science Highly Cited Researcher (Top 0.01%) by Clarivate Analytics, and he was ranked first in the field of mechanical engineering and transport globally (2020-2021) according to data published by Elsevier. Dr. Sheikholeslami has authored a number of books and is a member of the Editorial Boards of the 'International Journal of Heat and Technology' and 'Recent Patents on Nanotechnology'.

Narges Ataollahi Associate Professor and Head of the Electrochemical Energy Laboratory, Department of Civil, Environmental and Mechanical Engineering, University of Trento, Italy.

Dr. Narges Ataollahi is an Associate Professor and Head of the Electrochemical Energy Laboratory at the Department of Civil, Environmental and Mechanical Engineering at the University of Trento in Italy. She has a solid scientific background in the field of electrochemistry and materials science & technology. Her academic qualifications include a Bachelor's degree in Applied Chemistry, a Master's degree in chemistry with a focus on solid polymer electrolytes for Li-ion battery applications, and a PhD in which she concentrated on anion exchange membranes for electrochemical applications. Her research interests comprise a wide range of areas such as anion exchange membranes for fuel cells and water electrolyzers, solid polymer electrolytes, thin-film photovoltaic, thin-film thermoelectric generators, sustainable thermoelectric materials, chemical modification, functionalized nanoparticles, chalcogenide nanocrystals, and materials synthesis and characterizations. She has written multiple papers in various filed of chemistry, material science and engineering.

Ziba Khalili Babol Noshirvani University of Technology, Iran.

Ziba Khalili graduated from Babol Noshirvani University of Technology in Iran. Her academic journey has been marked by a relentless pursuit of knowledge and a fervent dedication to advancing renewable energy systems. With a Master of Science degree specializing in Mechanical Engineering and a focus on heat transfer, she has delved into cutting-edge research on photovoltaic/thermal systems. Her thesis, meticulously examines the intricate interplay between confined jet impingement and the efficiency of photovoltaic thermal solar units, ingeniously integrating thermoelectric generators and hybrid nanofluids. She has published extensively in reputable journals, elucidating innovative cooling techniques and system designs aimed at enhancing the performance of solar energy systems. Beyond her academic achievements, she has actively engaged in international collaborations and served as a teaching assistant and research assistant, demonstrating her commitment to both academia and practical applications in renewable energy systems.

Paolo Scardi Full Professor, Chair of Materials Science & Technology and Group Leader of Energy Materials, Department of Civil, Environmental & Mechanical Engineering, University of Trento, Italy.

Paolo Scardi is a full professor, chair of Materials Science & Technology and group leader of Energy Materials at the Department of Civil, Environmental & Mechanical Engineering, with the University of Trento (Italy) since 1986. Research interests include thin films and nanostructured materials, X-ray diffraction methods and materials crystallography; in recent years, interests have focused on atomistic modelling and applications of nanomaterials to renewable energy harvesting. For the scientific production: