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Nano Enhanced Phase Change Materials: Preparation, Properties and Applications: Materials Horizons: From Nature to Nanomaterials

Editat de Zafar Said, Adarsh Kumar Pandey
en Limba Engleză Hardback – 15 oct 2023
This book provides information on thermal energy storage systems incorporating phase change materials (PCMs) which are widely preferred owing to their immense energy storage capacity. The thermal energy storage (TES) potential of PCMs has been deeply explored for a wide range of applications, including solar/electrothermal energy storage, waste heat storage, and utilization, building energy-saving, and thermal regulations. The inherent shortcomings like leakage during phase transition and poor thermal conductivity hamper their extensive usage. Nevertheless, it has been addressed by their shape stabilization with porous materials and dispersing highly conductive nanoparticles. Nanoparticles suspended in traditional phase change materials enhance the thermal conductivity. The addition of these nanoparticles to the conventional PCM enhances the storage. In this book, the history of Nano Enhanced Phase Change Materials (NEPCM), preparation techniques, properties, theoretical modeling and correlations, and the effect of all these factors on the potential applications such as: solar energy, electronics cooling, heat exchangers, building, battery thermal management, thermal energy storage are discussed in detail. Future challenges and future work scope have been included. The information from this book can enable the readers to come up with novel techniques, resolve existing research limitations, and come up with novel NEPCM, that can be implemented for various applications.

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Specificații

ISBN-13: 9789819954742
ISBN-10: 9819954746
Pagini: 270
Ilustrații: VI, 270 p. 93 illus., 81 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.57 kg
Ediția:1st ed. 2023
Editura: Springer Nature Singapore
Colecția Springer
Seria Materials Horizons: From Nature to Nanomaterials

Locul publicării:Singapore, Singapore

Cuprins

Introduction to Nano Enhanced Phase Change Material.- Overview of PCMs.- Synthesis, characterization, and stability of NEPCM.- Influence of nanoparticles on thermophysical properties of PCMs.- Nanostructure–based colloidal suspension for thermal enhancement for NEPCM.
 


Notă biografică

Dr. Zafar Said is an Associate Professor at the Department of Sustainable Renewable Energy Engineering, University of Sharjah, U.A.E. He holds a B.S. in Mechanical Engineering (Hons.) from University Tenaga Nasional, Malaysia, and a Ph.D. from the University of Malaya, Malaysia. Post-PhD, he served as a researcher at the iSmart group in the Engineering Systems and Management Department of Khalifa University (formerly Masdar Institute), U.A.E, contributing to external industrial projects. His research interests encompass renewable energy, AI, optimization, and nanofluids, nano enhanced phase change materials, and he has produced over 230+ publications. Recognized among the top 2% of global scientists in the energy field, Dr. Said also ranks within the top 100 scientists in the UAE. His accolades include the 2022 Rising Star Science Star award by Research.com, the 2023 Research and Innovation Award from the UAE Ministry of Energy and Infrastructure, and several faculty awards. Dr. Said serves as a guest editor and editorial board member for several reputed journals.
 Prof. Adarsh Kumar Pandey is currently working as a Professor and Associate Dean (Engagement) at Research Centre for Nano-Materials and Energy Technology (RCNMET), School of Engineering and Technology, Sunway University, Malaysia. Prof. Pandey is leading the Ph.D. in Sustainability Science and Technology program at Sunway University. Prior to this, he worked at University of Malaya Power Energy Dedicated Advanced Centre (UMPEDAC), University of Malaya, Malaysia. Prof. Pandey holds Ph.D. in Energy from SMVD University, India. He is ranked in World's Top 2% Scientists by Elsevier BV and Stanford University in the field of Energy and awardee of several awards such as award of excellence in research 2022 from Sunway University. Prof. Pandey produced more than 200 Publications; as well he is author of books and book chapters. His current area of research involves but not limited to sustainable energy technologies, advanced energy materials, Nano Enhanced Phase Change Materials (NePCMs), solar PV and PVT, dye sensitized solar cells, etc. Prof. Pandey serves as a guest editor and editorial board member for several reputed journals.

Textul de pe ultima copertă

This book provides information on thermal energy storage systems incorporating phase change materials (PCMs) which are widely preferred owing to their immense energy storage capacity. The thermal energy storage (TES) potential of PCMs has been deeply explored for a wide range of applications, including solar/electrothermal energy storage, waste heat storage, and utilization, building energy-saving, and thermal regulations. The inherent shortcomings like leakage during phase transition and poor thermal conductivity hamper their extensive usage. Nevertheless, it has been addressed by their shape stabilization with porous materials and dispersing highly conductive nanoparticles. Nanoparticles suspended in traditional phase change materials enhance the thermal conductivity. The addition of these nanoparticles to the conventional PCM enhances the storage. In this book, the history of Nano Enhanced Phase Change Materials (NEPCM), preparation techniques, properties, theoretical modeling and correlations, and the effect of all these factors on the potential applications such as: solar energy, electronics cooling, heat exchangers, building, battery thermal management, thermal energy storage are discussed in detail. Future challenges and future work scope have been included. The information from this book can enable the readers to come up with novel techniques, resolve existing research limitations, and come up with novel NEPCM, that can be implemented for various applications.


Caracteristici

Covers the preparation and characterization techniques for nanoparticle enhanced PCM Explains the selection of nanoparticles based on variation in thermophysical properties Demonstrates the stability aspects and thermal reliability results