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Praised for its visual appeal, conversational style and clear explanation of complex ideas with minimal mathematics, Electricity from Sunlight has been thoroughly revised and updated to reflect advances in the global PV market, economics and installed capacity.
Key features of the 2nd edition include:
A timely update of the advances of photovoltaics (PV), with major new material on grid-connected systems.
More in-depth treatment of PV scientific principles, solar cells, modules, and systems.
Up-to-date coverage of the PV market including conversion efficiencies and the expansion of grid-friendly power plants.
End-of-chapter problems with solutions manual available to instructors via companion website.
Additional end-of-chapter questions and answers to support students through guided self-study.
New chapters on manufacturing processes and on materials and other resources availability.
New large-scale PV section covering the growth of global capacity, utility-scale PV and affordable solutions for intermittency.
Systems analysis of new applications empowered by low-cost PV, such as energy storage and water desalination.
Significantly expanded economics and environmental section explaining leveled cost of electricity versus upfront costs, energy return on investments, and lifecycle analysis.
Electricity from Sunlight: Photovoltaics Systems Integration and Sustainability, Second Edition is an essential primer for new entrants to the PV industry, needing a basic appreciation of complete PV systems, and to students on undergraduate and graduate courses on renewable energy and photovoltaics. It also offers a unique treatise of the sustainability of emerging transformative technologies, which makes it useful to both system analysts and energy policy strategists.
Co-author, Vasilis Fthenakis, is Recipient of the 2018 William R. Cherry Award
The Cherry Award recognizes an individual engineer or scientist who has made a significant contribution to the advancement of the science and technology of photovoltaic energy conversion, with dissemination by substantial publications and presentations. Fthenakis was honored for his pioneering research at the interface of energy and the environment that catalyzed photovoltaic technology advancement and deployment world-wide.
Autorentext
VASILIS M. FTHENAKIS is the founder and director of the Center for Life Cycle Analysis (CLCA), Department of Earth and Environmental Engineering, Columbia University, New York, USA. He is also a senior scientist emeritus at Brookhaven National Laboratory (BNL) where he conducted research for 36 years and directed the National Photovoltaics (PV) Environmental Research Center and several international networks. Dr. Fthenakis is the coauthor and editor of four books and about 400 scientific publications on topics at the interface of energy life cycles and the environment. Currently, he is leading research on solar desalination, energy systems modeling, life-cycle analysis, chemical process safety, and PV recycling. Vasilis Fthenakis is the recipient of the William R. Cherry Award 2018. The Cherry Award recognizes an individual engineer or scientist who has made a significant contribution to the advancement of the science and technology of photovoltaic energy conversion, with dissemination by substantial publications and presentations. PAUL A. LYNN obtained his B.Sc.(Eng) and Ph.D. degrees from Imperial College London, UK. After several years in the electrical/electronics industry, he lectured at Imperial College and the University of Bristol. As a retired academic, Dr. Lynn's long-term interest in renewable energy has led to a trilogy of Wiley books (including this one), and three solar-powered boats. He is the author of ten other books and numerous technical papers and articles.
Klappentext
A technically authoritative overview of photovoltaics and its practical applications ? now including sections on large-scale PV and the sustainability of its growth Praised for its visual appeal, conversational style and clear explanation of complex ideas with minimal mathematics, Electricity from Sunlight has been thoroughly revised and updated to reflect advances in the global PV market, economics and installed capacity. Key features of the 2nd edition include:
Inhalt
About the Authors xi
Foreword xiii
Preface to the First Edition xv
Preface to the Second Edition xvii
Acknowledgment to the First Edition xix
Acknowledgment to the Second Edition xxiii
About the Companion Website xxv
1 Introduction 1
1.1 Energy and Sustainable Development 1
1.2 The Sun, Earth, and Renewable Energy 2
1.3 The Solar Resource 6
1.4 The Magic of Photovoltaics 11
1.5 A Piece of History 13
1.6 Coming Up to Date 17
Appendix 1.A Energy Units and Conversions 22
CO2 Emissions per Fuel Type 22
CO2 Emissions in Transportation 23
Self?]Assessment Questions 23
Problems 24
Answers to Questions 25
References 25
2 Solar Cells 27
2.1 Setting the Scene 27
2.2 Crystalline Silicon 30
2.2.1 The Ideal Crystal 30
2.2.2 The pn Junction 32
2.2.3 Monocrystalline Silicon 35
2.2.3.1 Photons in Action 35
2.2.3.2 Generating Power 37
2.2.3.3 Sunlight, Silicon, and Quantum Mechanics 41
2.2.3.4 Refining the Design 45
2.2.4 Multicrystalline Silicon 51
2.3 Second?]Generation Photovoltaics 52
2.3.1 Amorphous and Thin?]Film Silicon 53
2.3.2 Copper Indium Gallium Diselenide (CIGS) 57
2.3.3 Cadmium Telluride (CdTe) 60
2.4 Cell Efficiency and Module Cost 61
2.5 Third?]Generation Solar Cells 64
2.5.1 Gallium Arsenide (GaAs) Multi?]Junctions 65
2.5.2 Dye?]Sensitized Cells 67
2.5.3 Organic Solar Cells 69
2.5.4 Perovskites 72
Self?]Assessment Questions 73
Problems 75
Answers to Questions 76
References 77
3 PV Modules and Arrays 79
3.1 Introduction 79
3.2 Electrical Performance 82
3.2.1 Connecting Cells and Modules 82
3.2.2 Module Parameters 85
3.3 Capturing Sunlight 88
3.3.1 Aligning the Array 92
3.3.2 Sunshine and Shadow 98
3.4 One?]Axis Tracking …