Authors:
- Decribes the thermal design of photovoltaics and the benefits of thermal optimization
- Includes information on thermal properties of photovoltaic materials
- Discusses the thermal behavior of photovoltaics from the underlying physics to the practical optimization of photovoltaic device technologies
- Includes supplementary material: sn.pub/extras
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Table of contents (4 chapters)
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Front Matter
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Back Matter
About this book
In general, temperature negatively affects the efficiency of photovoltaic devices. The first chapter describes the temperature-induced losses in photovoltaic devices and reviews the strategies to overcome them. The second chapter introduces the concept of temperature coefficient, the underlying physics and some guidelines for reducing their negative impacts. Subsequent chapters offer a comprehensive and general thermal model of photovoltaic devices, and review how current and emerging technologies, mainly solar cells but also thermophotovoltaic devices, can benefit from thermal optimizations.
Throughout the book, the authors argue that the energy yield of photovoltaic devices can be optimized by taking their thermal behavior and operating conditions into consideration in their design.
Authors and Affiliations
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University of Lyon, CNRS, INSA-Lyon , Villeurbanne, France
Olivier Dupré, Rodolphe Vaillon
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Schl. Photovoltaic & Renew. Energy Engg., Uni. of NSW, Austl. Centr. Ad. Photovol Schl. Photovoltaic & Renew. Energy Engg., Sydney, Australia
Martin A. Green
About the authors
Rodolphe Vaillon received the Ph.D. degree from Poitiers University, Poitiers, France, in 1996. He is a CNRS Professor with the Centre for Energy and Thermal Sciences of Lyon, CNRS-INSA Lyon-UCBL, Villeurbanne, France. The present book was prepared while he was the W.W. Clyde Visiting Chair in the Department of MechanicalEngineering at the University of Utah, Salt Lake City, USA. He is an Associate Editor of the Journal of Quantitative Spectroscopy and Radiative Transfer and a Member of the Scientific Council of the International Centre for Heat and Mass Transfer. His current research interests include nanoscale thermal radiation, the thermal behavior of photovoltaic devices and electromagnetic light scattering by complex particles.
Martin A. Green is currently a Scientia Professor with the University of New South Wales, Sydney, N.S.W., Australia, and the Director of the Australian Centre for Advanced Photovoltaics. His group’s contributions to photovoltaics include the development of the world’s highest efficiency silicon cells and commercialization of several different cell technologies. He is the author of numerous papers and several books on solar cells.
Prof. Green’s work has been recognized with major international awards, including the 2002 Right Livelihood Award, also known as the Alternative Nobel Prize, the 2007 Solar World Einstein Award, and the 2010 Eureka Prize for Leadership. In 2012, he was appointed as a Member of the Order of Australia in recognition of his contributions to photovoltaics and photovoltaics education. He has been elected to Fellowship of both the Australian Academy of Science and the Royal Society of London.
O. Dupré (Photovoltaics and Thermal Science specialist), R. Vaillon (Thermal Science specialist) and M.A. Green (internationally recognized Photovoltaics specialist) have been collaborating on a research project dealing with the topic of the book.
Bibliographic Information
Book Title: Thermal Behavior of Photovoltaic Devices
Book Subtitle: Physics and Engineering
Authors: Olivier Dupré, Rodolphe Vaillon, Martin A. Green
DOI: https://doi.org/10.1007/978-3-319-49457-9
Publisher: Springer Cham
eBook Packages: Energy, Energy (R0)
Copyright Information: Springer International Publishing AG 2017
Hardcover ISBN: 978-3-319-49456-2Published: 16 December 2016
Softcover ISBN: 978-3-319-84165-6Published: 30 April 2018
eBook ISBN: 978-3-319-49457-9Published: 02 December 2016
Edition Number: 1
Number of Pages: XIV, 130
Number of Illustrations: 3 b/w illustrations, 55 illustrations in colour
Topics: Renewable and Green Energy, Engineering Thermodynamics, Heat and Mass Transfer, Energy Systems, Optical and Electronic Materials