Thermofluids in Sustainable Energy Systems: Fundamentals and Applications

Zafar Said · Essam Abo-Zahhad

Νοε 2025 · Elsevier

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300

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"Thermofluids in Sustainable Energy Systems: Principles, Applications, and Innovations" is an essential reference that delves into the intricate realm of energy conversion, thermal science, and thermofluids, with a focus on sustainable energy systems. This book offers a comprehensive understanding of fundamental principles, up-to-date applications, and emerging innovations in the field of thermofluids, effectively bridging the gap between theory and practice. It aims to deliver a practical reference on thermodynamics, fluid mechanics, and heat transfer in sustainable energy systems. It equip readers, including students, researchers, engineers, and professionals, with a consolidated knowledge base that merges fundamental principles with practical applications, equipping them to address real-world challenges in energy conversion, thermal management, and energy-efficient solutions. This book addresses the problem of scattered and fragmented information by providing a unified, contemporary resource on thermofluids in sustainable energy systems. It offers readers an in-depth understanding of thermofluid phenomena in energy conversion and their application in various sustainable energy technologies. By unraveling the fundamental principles, challenges, and innovations in the field, the book provides readers the necessary knowledge and skills to contribute to the development and implementation of sustainable energy solutions.• Covers essential topics in thermodynamics, fluid mechanics, heat transfer, energy conversion, and sustainable energy systems• Provides a comprehensive understanding of thermofluids in sustainable energy systems, utilizing practical examples, case studies, and computational modeling techniques to address real-world challenges• Emphasizes the significance of environmental impact and sustainability in energy systems, addressing environmental implications of various technologies, and providing strategies for developing eco-friendly systems

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Dr. Zafar Said is an Associate Professor with the Department of Sustainable Renewable Energy Engineering, University of Sharjah, UAE. He also serves as coordinator of the Functional Nanomaterials Synthesis Lab. Dr. Said completed his Ph.D. from the University of Malaya, Malaysia, and worked as a postdoctoral researcher at the Masdar Institute, UAE, where he has also worked on industrial collaborative projects. Dr. Said works on renewable energy, energy and exergy analysis, solar energy, heat transfer, and nanofluids. He has published over 180 papers, 2 books, 20 book chapters, and 26 conference papers, with more than 15,000 citations, and was also ranked in the World's Top 2% Scientists in 2022, 2021 and 2020 by Elsevier and Stanford University in the field of Energy. He is ranked in the top 100 scientists in the United Arab Emirates and has secured more than 2 million AED in research grants. He has been honoured with several prestigious awards and is also serving as Editorial Board Member for several ISI Journals, as well as Guest Editor for several special issues.

Dr. Essam Abo-Zahhad is a dedicated and accomplished mechanical engineering academic specializing in computational heat transfer and fluid flow. With a solid drive to advance the thermal sciences and engineering field, Essam's academic journey has been marked by exceptional achievements and a commitment to excellence. Essam completed his undergraduate studies in mechanical engineering, where his passion for computational heat transfer and fluid flow first emerged. Motivated by an insatiable enthusiasm, he pursued his M.Sc. and Ph.D. studies at the Egypt-Japan University of Science & Technology in collaboration with the prestigious Tokyo Institute of Technology, Japan. During his Ph.D., he had the privilege of spending a year at Tokyo Tech, where he designed and implemented an experimental setup to investigate flow boiling phenomena in microchannels, focusing on cooling requirements for high-concentrated multi-junction solar cells. Essam recently joined the Research Institute of Sciences and Engineering (RSIE) at the University of Sharjah. His work focuses on analyzing energy harvesting within national-level research projects in the U.A.E., collaborating with government partners, and conducting studies on renewable Energy and green thermal energy systems

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