Description

Book Synopsis
This book provides a broad overview on the different aspects of solar energy, with a focus on photovoltaics, which is the technology that allows light energy to be converted into electric energy. Renewable energy sources have become increasingly popular in recent years, and solar is one of the most adaptable and attractive types – from solar farms to support the National Grid to roof panels/tiles used for solar thermal heating systems, and small solar garden lights. Written by Delft University researchers, Solar Energy uniquely covers both the physics of photovoltaic (PV) cells and the design of PV systems for real-life applications, from a concise history of solar cells components and location issues of current systems. The book is designed to make this complicated subject accessible to all, and is packed with fascinating graphs and charts, as well as useful exercises to cement the topics covered in each chapter. Solar Energy outlines the fundamental principles of semiconductor solar cells, as well as PV technology: crystalline silicon solar cells, thin-film cells, PV modules, and third-generation concepts. There is also background on PV systems, from simple stand-alone to complex systems connected to the grid. This is an invaluable reference for physics students, researchers, industrial engineers and designers working in solar energy generation, as well those with a general interest in renewable energy.

Table of Contents
I. Introduction 1. Energy 2. Status and prospects of PV technology 3. The working principle of a solar cell II. PV Fundamentals 4. Electrodynamic basics 5. Solar radiation 6. Basic semiconductor physics 7. Generation and recombination of electron-hole pairs 8. Semiconductor junctions 9. Solar cell parameters and equivalent circuit 10. Losses and efficiency limits III. PV technology 11. A short history of solar cells 12. Crystalline silicon solar cells 13. Thin-film solar cells 14. A closer look to some processes 15. PV modules 16. Third generation concepts IV. PV systems 17. Introduction to PV systems 18. Location issues 19. Components of PV systems 20. PV system design 21. PV System economics and ecology V. Alternative solar energy conversion technologies 22. Solar thermal energy 23. Solar fuels Appendix A. Derivations in electrodynamics B. Derivation of homojunctions J-V curves C. Some aspects of surface recombination D. The morphology of selected TCO samples E. Some aspects on location issues F. Derivations for DC-DC converters G. Fluid-dynamic model Bibliography Index

Solar Energy: The physics and engineering of

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A Paperback / softback by Arno Smets, Klaus Jäger, Olindo Isabella

3 in stock


    View other formats and editions of Solar Energy: The physics and engineering of by Arno Smets

    Publisher: Bloomsbury Publishing PLC
    Publication Date: 04/02/2016
    ISBN13: 9781906860325, 978-1906860325
    ISBN10: 1906860327
    Also in:
    Non Fiction Science & Nature Condensed matter physics Technology, Engineering & Agriculture Alternative and renewable energy sources Electronic devices and materials

    Description

    Book Synopsis
    This book provides a broad overview on the different aspects of solar energy, with a focus on photovoltaics, which is the technology that allows light energy to be converted into electric energy. Renewable energy sources have become increasingly popular in recent years, and solar is one of the most adaptable and attractive types – from solar farms to support the National Grid to roof panels/tiles used for solar thermal heating systems, and small solar garden lights. Written by Delft University researchers, Solar Energy uniquely covers both the physics of photovoltaic (PV) cells and the design of PV systems for real-life applications, from a concise history of solar cells components and location issues of current systems. The book is designed to make this complicated subject accessible to all, and is packed with fascinating graphs and charts, as well as useful exercises to cement the topics covered in each chapter. Solar Energy outlines the fundamental principles of semiconductor solar cells, as well as PV technology: crystalline silicon solar cells, thin-film cells, PV modules, and third-generation concepts. There is also background on PV systems, from simple stand-alone to complex systems connected to the grid. This is an invaluable reference for physics students, researchers, industrial engineers and designers working in solar energy generation, as well those with a general interest in renewable energy.

    Table of Contents
    I. Introduction 1. Energy 2. Status and prospects of PV technology 3. The working principle of a solar cell II. PV Fundamentals 4. Electrodynamic basics 5. Solar radiation 6. Basic semiconductor physics 7. Generation and recombination of electron-hole pairs 8. Semiconductor junctions 9. Solar cell parameters and equivalent circuit 10. Losses and efficiency limits III. PV technology 11. A short history of solar cells 12. Crystalline silicon solar cells 13. Thin-film solar cells 14. A closer look to some processes 15. PV modules 16. Third generation concepts IV. PV systems 17. Introduction to PV systems 18. Location issues 19. Components of PV systems 20. PV system design 21. PV System economics and ecology V. Alternative solar energy conversion technologies 22. Solar thermal energy 23. Solar fuels Appendix A. Derivations in electrodynamics B. Derivation of homojunctions J-V curves C. Some aspects of surface recombination D. The morphology of selected TCO samples E. Some aspects on location issues F. Derivations for DC-DC converters G. Fluid-dynamic model Bibliography Index

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