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The textbook book discusses the basics required to understand various application of solar energy. It covers basic mathematical tools required to analyze any solar thermal (ST), photo-voltaic (PV), and photo-voltaic thermal (PVT) system. The book provides a platform for undergraduate, postgraduate, researchers, and entrepreneurs to optimize the basic parameters for best performance of any system based on solar energy. The book includes about 500 examples that the reader can use to better understand the subject.

Photovoltaic power generation. --- Solar energy. --- Chemical engineering. --- Environmental engineering. --- Photovoltaics. --- Solar Thermal Energy. --- Environmental Process Engineering.

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This book is designed to serve as a textbook for courses on renewable energy technology tragetted at upper undergraduate or graduate students. This book can also be used as a core or supplementary text for courses in energy conservation and management and solar photo-voltaic design and application. This textbook covers the basic concepts of renewable energy resources, especially wind and solar energy. It contains 8 chapters covering all major renewable energy systems, resources, and related topics, as well as a brief introductory chapter on grid integration techniques in solar and wind energy systems. The book includes pedagogical features like examples and review questions and multiple choice questions to help the readers test their understanding. Reading lists, including web-based material, are included at the end of each chapter. The structure and pedagogy makes this book useful for self-study as well as for classroom use. The book can also be used as text for professional development courses for engineers employed in the energy industry.

Wind power. --- Solar energy. --- Energy storage. --- Wind Energy. --- Solar Thermal Energy. --- Mechanical and Thermal Energy Storage.

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This book discusses the manufacturing processes of photovoltaic solar cells, from conventional silicon cells, to thin-film technologies and ending with the cutting-edge technologies of third-generation photovoltaics. The rapid advances in photovoltaic technologies are propelled by the discovery of new materials through innovative routes of synthesis and deposition. For example, the exponential enhancement in efficiencies of perovskite solar cells between years 2015 and 2020 is a direct result of the availability of new materials to capitalize on innovative manufacturing techniques. Currently, efficiencies of up to 25.5% are achieved by perovskite solar cells technologies. This book is intended for scientists and engineers who are keen on having a solid understanding of conventional manufacturing processes of bulk silicon for photovoltaic purposes, as well as advanced processes used to synthesize materials for emerging photovoltaic technologies such as thin-film and third-generation PV. The book is designed to be self-contained to allow the reader to develop knowledge and experience in materials selection as well as a good understanding of pertinent manufacturing process to arrive at best device performance. The technologies presented are also analyzed for its energy and environmental impacts. .

Electromagnetism. Ferromagnetism --- elektriciteit --- Photovoltaic power generation. --- Electric power production. --- Solar energy. --- Photovoltaics. --- Electrical Power Engineering. --- Solar Thermal Energy.

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This volume of the Encyclopedia of Sustainability Science and Technology, Second Edition, describes technologies that actively convert solar radiation into useful heat in a temperature range from just above ambient up to more than 1,000ÀC. Applications cover a broad range of energy services such as space heating, cooking, domestic hot water supply, electrical power generation, and high temperature thermochemical processes. The major developments that have led to currently available technologies for solar thermal energy applications were initiated mainly after the first oil shock in 1973. Solar thermal energy is widely used already for heating purposes (water, space) in the "low" temperature range up to about 100°C employing mainly nonconcentrating collectors, whereas higher temperatures can be achieved with more sophisticated solar collector technologies. Temperatures over 200°C typically require concentrating solar radiation using mirror systems. Several different technologies are described in detail in this volume, including solar collector systems in the lower temperature range, the direct use of solar radiation for food processing, namely cooking and drying, the production of electricity through conversion of solar radiation first to heat, driving a mechanical conversion system coupled to an electric generator, the use of solar radiation to drive chemical processes, and many more.

Solar thermal energy. --- Solar thermal conversion --- Solar thermal power systems --- Solar thermal technology --- Thermodynamic conversion of solar energy --- Heat engineering --- Solar energy

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This book has been written with an aim to enhance the understanding of renewable energy sector policies, finance, and project management. It provides a comprehensive update on renewable energy policies and fiscal instruments, employed globally, with detailed discussions on the Indian policy regime. The book covers various stages of a renewable energy project, from concept to commissioning, and elucidates methodology for computing key financial ratios. A number of case studies, business models, and examples have been presented. Fundamental concepts on technologies, performance, financial tools, and carbon emissions have been explained to enable readers to assimilate the concepts. Data has been presented in easy-to-understand charts, figures, excel spreadsheets, and tables. This book will be useful for the stakeholders associated with the energy sector – corporate professionals, utility personnel, entrepreneurs, investors, bankers, and policymakers. It shall also serve as a textbook for university students as well as research scholars pursuing courses in energy.

Renewable energy sources. --- Energy policy. --- Energy and state. --- Wind power. --- Solar energy. --- Renewable Energy. --- Energy Policy, Economics and Management. --- Wind Energy. --- Solar Thermal Energy.