This book explores the recent technological development and advancement in high-temperature solar thermal technologies, offering a comprehensive guide to harnessing solar energy for industrial processes, power generation, and energy storage in the 21st century. This book delves into the science and engineering behind systems that capture and concentrate sunlight to generate heat above 400°C, providing a clean, renewable solution to global energy needs. Readers are able to understand how different technologies are integrating with the solar thermal domain to make it more predictive, accurate, efficient, and reliable.
The book, the first volume in a sequence of volumes, covers both foundational principles and the latest innovations, encompassing advanced materials, heat transfer fluids, artificial intelligence, and algorithm applications, as well as applications of solar thermal technologies in various cutting-edge domains such as solar thermochemical green hydrogen production. With practical case studies and in-depth analysis, this book helps solar thermal application engineers, researchers, policymakers, and anyone interested in understanding solar thermal energy future pathways. Whether the reader is exploring solar thermal systems for the first time or looking for cutting-edge insights into this rapidly evolving field, the proposed book offers the knowledge and tools to drive sustainable energy solutions forward.
The pivotal role of high-temperature solar thermal energy in a
sustainable future.- Heat transfer mechanisms in high-temperature solar
thermal systems.- Advanced materials for high-temperature solar thermal
applications.- Solar thermal concentrators in CSP: Design, operation, and
recent advances.- Fluid dynamics in concentrated solar power systems.-
Advanced heat transfer fluids and materials for high-temperature concentrated
solar power systems: Properties and innovations.- Next-generation heat
transfer fluids and coatings for high-temperature CSP.- Comparative analysis
of thermal fluids and materials for high-temperature CSP.- Artificial
intelligence and machine learning applications in high-temperature solar
thermal systems.- Computer vision and automation in concentrated solar power
plants operations.- Solar thermochemical routes for hydrogen and syngas
production.- Harnessing solar energy for thermochemical pyrolysis of biomass:
A sustainable pathway for bio-oil and syngas generation.- Experimental
investigation of solar thermal energy systems for enhanced thermal
performance: Design optimisation for sustainable energy solutions.-
High-temperature solar applications for industrial decarbonisation.-
Experimental investigations on multi-passage finned type solar receiver.-
High-temperature hydrogen production using integrated spectrally split
concentrated photovoltaics and solar tower systems.- Green recovery of
critical materials from spent lithium batteries using concentrated solar
thermal systems.- Life cycle assessment (LCA) of high-temperature solar
thermal technologies.- Techno-economic assessment of high-temperature solar
thermal systems.- Advancements and challenges in pillow plate heat
exchangers: A comprehensive review.- Multi-criteria decision-making analysis
for a sustainable hydrogen economy in Oman: Pathways to carbon neutrality via
renewable solar energy.- Design and execution of a 100kW solar system.
Professor Craig McGregor, a registered professional engineer, leads Stellenbosch Universitys Solar Thermal Energy Research Group (STERG) and is a professor in Mechanical and Mechatronic Engineering. With two decades of industrial R&D at a multinational energy and chemical company, he brings practical experience to his academic role. His expertise spans chemical and mechanical engineering, focusing on concentrating solar thermal systems, green hydrogen, and energy systems integration. Under his leadership, STERG has become a leading international solar thermal research hub. As an associate director for Stellenbosch Universitys Centre for Renewable and Sustainable Energy Studies, he mentors students and fosters collaborations with institutions like the National Renewable Energy Laboratory. At Sasol, Professor McGregor spearheaded the Stellio heliostat technology, recognized with the 2015 SolarPACES Technology Innovation Award for its cost efficiency. He also managed the commercialization of chemical technologies and strategic planning for Sasols Southern Africa operations, resulting in numerous patents.
Dr. Varun Pratap Singh is an Assistant Professor-SG in the Department of Mechanical and Aerospace Engineering (Mechanical Cluster), UPES Dehradun, India, and a Postdoctoral Fellow with the Solar Thermal Energy Research Group (STERG) at Stellenbosch University, South Africa. With over 14 years of academic and industry experience, he specializes in solar thermal energy, thermo-fluid applications, system design, and prototyping. He has secured research grants worth over 5 million, published 30+ SCIE papers, 50+ SCOPUS articles, nine patents, and 30+ book chapters, and has edited five books with major publishers. He serves as Series Editor in Solar Thermal Technologies with Taylor & Francis and has guided 100+ undergrads and master scholars with 4 PhD researchers. He has also headed the Centre of Excellence, Solar Energy Centre, and the IndustryAcademia Chair, promoting sustainable technology solutions. Beyond research, he is passionate about nature-inspired innovation and enjoys planting, hiking, and coin collection.
Dr. Ashwani Kumar, a Ph.D. in Mechanical Engineering, boasts over 15 years of diverse experience. Hes currently working as a Professor and the head department of Mechanical Engineering at Technical Education Department Uttar Pradesh Kanpur (under Government of Uttar Pradesh), India. Previously, he served as a senior lecturer and lecturer there, and as an assistant professor at Graphic Era University Dehradun India. A prolific academic, Dr. Kumar is a series editor for eight book series with CRC Press/ Taylor & Francis, Wiley Scrivener, and Apple Academic Press. With over 235 research publications, 40 co-authored/edited books, and 5 patents Dr. Kumar is a recognized scholar, awarded for teaching excellence. Hes guided 15 theses and is an external doctoral committee member at S.R.M. University New Delhi India. His research spans AI/ML in Mechanical Engineering, Smart Materials, Thermal Energy Storage, Renewable Energy, and Energy Efficient Green Technologies.
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