Solar Energy Harvesting, Conversion, and Storage: Materials, Technologies, and Applications focuses on the current state of solar energy and the recent advancements in nanomaterials for different technologies, from harnessing energy to storage. The book covers different aspects of advanced nanomaterials for solar energy, rapid developments in solar thermal and hot water systems, and PV and CSP technologies. In addition, sections cover storing harnessed solar/heat energy using different available energy storage technologies, including phase change materials (PCMs), batteries, and supercapacitors. Various applications such as agriculture and aquaculture, desalination, domestic appliances, and transport are also explored.
- Provides an overview of solar energy harvesting technologies, energy storage technologies, and the role of advanced nanomaterials in solar energy
- Explores applications of technology in the fields of agriculture, aquaculture, desalination and transport
- Includes discussion of current policies, strategies and socioeconomic analysis and challenges
1 Introduction to solar energy harvesting and storage 2 Nanosolar cell technologies 3 Nanotechnology in concentrated solar power technology 4 Nanofluids for solar photovoltaic/thermal systems 5 Nanofluids-based optical filtering for photovoltaic/thermal system 6 2D materials in phase change materials 7 MXene for solar cells 8 Nanostructured materials for next-generation solar energy harvesting, conversion, and storage 9 Advances in solar energy applications using nanotechnology 10 Design and modeling of solar energy systems 11 The role of artificial intelligence in solar harvesting, storage, and conversion 12 Techno-economic analysis of solar photovoltaic-thermal system viability 13 Solar energy and the circular economy policies for sustainable management
Dr. Mohammad Khalid is a Research Professor and Head of Graphene and Advanced 2D Materials Research Group at Sunway University, Malaysia. His research interests lie in the area of advanced nanomaterial synthesis, heat transfer fluids, energy harvesting, and storage. He is among the top 2% of scientists in the world, with over 200 research articles published in peer-reviewed international journals. He has supervised more than 30 postgraduate students and has over 15 years of research and teaching experience. He is also a Fellow of the Higher Education Academy (FHEA), UK. Rashmi Walvekar is Associate Professor at the School of Engineering at Taylors University, Malaysia. Her research areas includes nanofluid synthesis for heat transfer application, deep eutectic solvents as alternative solvents, recycle of waste rubber tire, production of nanoparticles from biomass and bio-nanolubricants. Dr. Hitesh Panchal is working as Assistant professor in the Mechanical Engineering Department at Government Engineering College Patan, Gujarat, India. Dr Hitesh Panchal received his PhD (Solar Thermal Engineering) in 2015 from KSV University Gandhinagar. He has published 100 plus Research papers in reputed International Journal publications like Taylor and Francis, Springer, Elsevier, ASME etc and received 3200 plus Google scholar citations with H index 36 and I10 index 78. Dr. Panchal obtained many prestigious awards like Best PhD Thesis Award, Tech Guru Award, Preeminent Researcher Award, Young Scientist Award, Bright Researchers Award and many more. Dr Panchal has completed 2 Research projects from GUJCOST and SYST DST. Dr. Panchal has filed 26 Full patents and 06 Industrial design and among them 2 Full patents and 2 industrial design granted. Recently Dr. Panchal was selected in the Top 2 % Indian scientist in Energy Category published by Stanford University. Mahesh Vaka received a bachelors degree in nanotechnology from Sathyabama University, and a masters degree from Deakin University, Australia, where he mainly focused on graphene and graphene hybrid derivatives for sensor applications. He is currently pursuing the Ph.D. degree in chemical engineering with Taylors University, Malaysia where his research is focused on the synthesis of 2-D nanomaterials and its application in solar energy harvesting and storage.
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