Solar Energy

Fundamentals, Technology and Systems

Author: Olindo Isabella,Klaus Jäger,Arno Smets,Miro Zeman,René van Swaaij

Publisher: N.A

ISBN: 9781906860325

Category:

Page: 488

View: 3977

This comprehensive textbook takes you through everything you need to know about solar energy from the physics of photovoltaic (PV) cells through to the design of PV systems for real-life applications. Solar Energy is an invaluable reference for researchers, industrial engineers and designers working in solar energy generation. The book is also ideal for university and third-level physics or engineering courses on solar photovoltaics, with exercises to check students' understanding and reinforce learning. It is the perfect companion to the Massive Open Online Course (MOOC) on Solar Energy (DelftX, ET.3034TU) presented by co-author Arno Smets. The course is available in English on the nonprofit open source edX.org platform, and in Arabic on edraak.org. Over 100,000 students have already registered for these MOOCs.

Photovoltaics

Fundamentals, Technology, and Practice

Author: Konrad Mertens

Publisher: John Wiley & Sons

ISBN: 111940133X

Category: Technology & Engineering

Page: 368

View: 4942

A comprehensive tutorial on photovoltaic technology now fully updated to include solar storage and the latest methods for on-site plant measurements Starting with the basic principles of solar energy, this fully updated, practical text explains the fundamentals of semiconductor physics and the structure and functioning of the solar cell. It describes the latest measurement techniques for solar modules, and the planning and operation of grid-connected and off-grid PV systems. It also looks at other thin film cells, hybrid wafer cells, and concentrator systems. Additionally, this Second Edition covers solar modules and solar generators; system technology of grid connected plants; the storage of solar energy; photovoltaic measurement technology; the planning and operation of grid-connected systems; economic efficiency of PV systems; and the future development of PV. Presents the latest advances in PV R&D and industry deployment Updated illustrations and tabular data reflect current state-of-the-art and PV technology efficiencies Offers expanded tutorial sections to aid teaching and self-study Includes a brand-new chapter on Solar Energy Storage Features two enlarged chapters—one on up-to-date photovoltaic metrology and the other on the future developments in photovoltaics Comes along with the accompanying website www.textbook-pv.org which offers free downloadable figures of the book, solutions of exercises, additional free PV software etc. Developed to prepare engineering students for the PV industry, this practical text is an essential PV primer.

The Physics of Solar Cells

Author: Jenny Nelson

Publisher: World Scientific Publishing Company

ISBN: 1848168233

Category: Science

Page: 384

View: 2487

This book provides a comprehensive introduction to the physics of the photovoltaic cell. It is suitable for undergraduates, graduate students, and researchers new to the field. It covers: basic physics of semiconductors in photovoltaic devices; physical models of solar cell operation; characteristics and design of common types of solar cell; and approaches to increasing solar cell efficiency. The text explains the terms and concepts of solar cell device physics and shows the reader how to formulate and solve relevant physical problems. Exercises and worked solutions are included.

Solar cells

operating principles, technology, and system applications

Author: Martin A. Green

Publisher: Prentice Hall

ISBN: N.A

Category: Technology & Engineering

Page: 274

View: 1996


Handbook of Photovoltaic Science and Engineering

Author: Antonio Luque,Steven Hegedus

Publisher: John Wiley & Sons

ISBN: 0470976128

Category: Technology & Engineering

Page: 1162

View: 8776

The most comprehensive, authoritative and widely cited reference on photovoltaic solar energy Fully revised and updated, the Handbook of Photovoltaic Science and Engineering, Second Edition incorporates the substantial technological advances and research developments in photovoltaics since its previous release. All topics relating to the photovoltaic (PV) industry are discussed with contributions by distinguished international experts in the field. Significant new coverage includes: three completely new chapters and six chapters with new authors device structures, processing, and manufacturing options for the three major thin film PV technologies high performance approaches for multijunction, concentrator, and space applications new types of organic polymer and dye-sensitized solar cells economic analysis of various policy options to stimulate PV growth including effect of public and private investment Detailed treatment covers: scientific basis of the photovoltaic effect and solar cell operation the production of solar silicon and of silicon-based solar cells and modules how choice of semiconductor materials and their production influence costs and performance making measurements on solar cells and modules and how to relate results under standardised test conditions to real outdoor performance photovoltaic system installation and operation of components such as inverters and batteries. architectural applications of building-integrated PV Each chapter is structured to be partially accessible to beginners while providing detailed information of the physics and technology for experts. Encompassing a review of past work and the fundamentals in solar electric science, this is a leading reference and invaluable resource for all practitioners, consultants, researchers and students in the PV industry.

Solar Energy

An Introduction

Author: Michael E. Mackay

Publisher: Oxford University Press

ISBN: 0199652104

Category: TECHNOLOGY & ENGINEERING

Page: 336

View: 4129

The information in this book can be used to teach advanced undergraduate or beginning graduate students the fundamental science and engineering of solar energy technologies. It is written in a way that will allow the reader to generalize the information presented in the book rather than present a compendium of facts. A concise and detailed review of solar energy and its interaction with materials is first given followed by discussion of photovoltaic devices andsolar thermal technologies like the solar chimney, solar (power) tower, flat plate water heater, and electricity generation. This is a broad and detailed presentation of information that can be used bythe reader to understand existing solar energy related technologies or to design their own.

Clean Electricity from Photovoltaics

Author: Mary D Archer,Robert Hill

Publisher: World Scientific

ISBN: 1783262052

Category: Medical

Page: 868

View: 5514

Photovoltaic cells provide clean, reversible electrical power from the sun. Made from semiconductors, they are durable, silent in operation and free of polluting emissions. In this book, experts from all sectors of the PV community — materials scientists, physicists, production engineers, economists and environmentalists — give their critical appraisals of where the technology is now and what its prospects are. Contents:The Past and Present (M D Archer)Device Physics of Silicon Solar Cells (J O Schumacher & W Wettling)Principles of Cell Design (J Poortmans et al.)Crystalline Silicon Solar Cells (M A Green)Amorphous Silicon Solar Cells (C R Wronski & D E Carlson)Cadmium Telluride Solar Cells (D Bonnet)Cu(In,Ga)Se2 Solar Cells (U Rau & H W Schock)Super-High Efficiency III-V Tandem and Multijunction Cells (M Yamaguchi)Organic Photovoltaic Devices (J J M Halls & R H Friend)Quantum Well Solar Cells (J Nelson)Thermophotovoltaic Generation of Electricity (T J Coutts)Concentrator Cells and Systems (A Luque)Cells and Systems for Space Applications (C M Hardingham)Storage of Electrical Energy (R M Dell)Photovoltaic Modules, Systems and Applications (N M Pearsall & R Hill)The Photovoltaic Business: Manufacturers and Markets (B McNelis)The Economics of Photovoltaic Technologies (D Anderson)The Outlook for PV in the 21st Century (E H Lysen & B Yordi) Readership: Physicists, chemists and engineers. Keywords:Electricity;Photovoltaics;Cadmium;Solar CellsReviews:“… is an excellent resource for its intended readership of students, scientists and technologists working in the area … it is well indexed, and includes a handy list of useful web and library references. At the very least, the book deserves a place in the library of every research institution and company working on renewable energy.”Nature “With a broad range of coverage, many references in each chapter, and an appendix listing useful quantities, factors and symbols, this book would be an excellent reference source for any one working in the field of photovoltaics.”IEEE Electrical Insulation Magazine “It is timely, up-to-date and a very comprehensive work. The chapters are written by leading experts in their field who are able to communicate the technology and their enthusiasm … Photovoltaic R&D is a multi-disciplinary activity, and most chapters should be accessible to advanced undergraduate students, postgraduates and researchers with a wide range of backgrounds. It can be recommended to those starting a PhD in the area and to existing researchers in other fields who wish to find out what all the excitement is about.”Contemporary Physics

Nanostructured Materials for Solar Energy Conversion

Author: Tetsuo Soga

Publisher: Elsevier

ISBN: 9780080468303

Category: Science

Page: 614

View: 1920

Nanostructured Materials for Solar Energy Conversion covers a wide variety of materials and device types from inorganic materials to organic materials. This book deals with basic semiconductor physics, modelling of nanostructured solar cell, nanostructure of conventional solar cells such as silicon, CIS and CdTe, dye-sensitized solar cell, organic solar cell, photosynthetic materials, fullerene, extremely thin absorber (ETA) solar cell, quantum structured solar cell, intermediate band solar cell, carbon nanotube, etc. including basic principle and the latest results. There are many books written on conventional p-n junction solar cells, but few books focus on new concepts in this area. * Focuses on the use of nanostructured materials for solar energy * Looks at a wide variety of materials and device types * Covers both organic and inorganic materials

Solar Materials Science

Author: Lawrence Murr

Publisher: Elsevier

ISBN: 032314246X

Category: Technology & Engineering

Page: 800

View: 4728

Solar Materials Science is a collection of lecture series on solar and other related energy technologies, sponsored by the New Mexico Joint Center for Materials Science. This book is divided into three sections encompassing 21 chapters that discuss the basic concepts of materials science, their utilization in solar technology, and examples of this utilization and the technology. The introductory chapters present an overview of the solar materials science and technology. Section I describes the optical properties, microstructure, and materials used in solar collectors and mirrors. This section also examines metals emissivity, spectral selectivity of composite for absorbers, and corrosion of solar thermal energy materials. Section II deals with the application of thermodynamic principles and reversible chemical reactions to solar storage systems. This section also considers the materials problems encountered during the development of thermochemical concepts and schemes. Section III focuses on the principles, materials used, and encountered problems in the development of photovoltaic systems. The optimization of solar conversion devices is also covered in this section. Undergraduate and graduate students in metallurgy, metallurgical and materials engineering, materials science, electrical and mechanical engineering, engineering science, and solid-state physics and chemistry will greatly benefit from this book.

Taming the Sun

Innovations to Harness Solar Energy and Power the Planet

Author: Varun Sivaram

Publisher: MIT Press

ISBN: 0262345617

Category: Political Science

Page: 392

View: 4510

Solar energy, once a niche application for a limited market, has become the cheapest and fastest-growing power source on earth. What's more, its potential is nearly limitless -- every hour the sun beams down more energy than the world uses in a year. But in Taming the Sun, energy expert Varun Sivaram warns that the world is not yet equipped to harness erratic sunshine to meet most of its energy needs. And if solar's current surge peters out, prospects for replacing fossil fuels and averting catastrophic climate change will dim. Innovation can brighten those prospects, Sivaram explains, drawing on firsthand experience and original research spanning science, business, and government. Financial innovation is already enticing deep-pocketed investors to fund solar projects around the world, from the sunniest deserts to the poorest villages. Technological innovation could replace today's solar panels with coatings as cheap as paint and employ artificial photosynthesis to store intermittent sunshine as convenient fuels. And systemic innovation could add flexibility to the world's power grids and other energy systems so they can dependably channel the sun's unreliable energy. Unleashing all this innovation will require visionary public policy: funding researchers developing next-generation solar technologies, refashioning energy systems and economic markets, and putting together a diverse clean energy portfolio. Although solar can't power the planet by itself, it can be the centerpiece of a global clean energy revolution. A Council on Foreign Relations Book

Solar Energy Engineering

Processes and Systems

Author: Soteris A. Kalogirou

Publisher: Academic Press

ISBN: 9780080922874

Category: Technology & Engineering

Page: 778

View: 4434

As perhaps the most promising of all the renewable energy sources available today, solar energy is becoming increasingly important in the drive to achieve energy independence and climate balance. This new book is the masterwork from world-renowned expert Dr. Soteris Kalogirou, who has championed solar energy for decades. The book includes all areas of solar energy engineering, from the fundamentals to the highest level of current research. The author includes pivotal subjects such as solar collectors, solar water heating, solar space heating and cooling, industrial process heat, solar desalination, photovoltaics, solar thermal power systems, and modeling of solar systems, including the use of artificial intelligence systems in solar energy systems, modeling and performance prediction. *Written by one of the world's most renowned experts in solar energy *Covers the hottest new developments in solar technology, such as solar cooling and desalination *Packed with quick look up tables and schematic diagrams for the most commonly used systems today'

Solar Engineering of Thermal Processes

Author: John A. Duffie,William A. Beckman

Publisher: John Wiley & Sons

ISBN: 0470873663

Category: Technology & Engineering

Page: 936

View: 7508

The fourth edition of the acknowledged leading book on solar engineering, this volume presents the basics of solar energy, then goes on to cover the technologies used to harvest this solar energy, store it, and deliver it, including photovoltaics, solar heaters, and cells. The new edition features an added chapter discussing a simulation problem, allowing students to apply the theory to real world systems. Other simulation problems are offered via a student website and include a solar domestic hot water system, a commercial solar heating application, and a photovoltaic system for a house.

Solar Photovoltaics

Fundamentals, Technologies And Applications

Author: CHETAN SINGH SOLANKI

Publisher: PHI Learning Pvt. Ltd.

ISBN: 8120351118

Category: Technology & Engineering

Page: 540

View: 9768

This thoroughly revised text, now in its third edition, continues to provide a detailed discussion on all the aspects of solar photovoltaic (PV) technologies from physics of solar cells to manufacturing technologies, solar PV system design and their applications. The Third Edition includes a new chapter on “Advances in c-Si Cell Processes Suitable for Near Future Commercialization” (Chapter 8) to introduce the technological advancement in the commercial production to keep the readers up to date. Organized in three parts, Part I introduces the fundamental principles of solar cell operation and design, Part II explains various technologies to fabricate solar cells and PV modules and Part III focuses on the use of solar photovoltaics as part of the system for providing electrical energy. In addition to this, numerous chapter-end exercises are given to reinforce the understanding of the subject. The text is intended for the undergraduate and postgraduate students of engineering for their courses on solar photovoltaic technologies and renewable energy technologies. The book is of immense use for teachers, researchers and professionals working in the photovoltaic field. In a nutshell, this book is an absolute must-read for all those who want to understand and apply the basics behind photovoltaic devices and systems.

Solar Energy Conversion Systems

Author: Jeffrey R. S. Brownson

Publisher: Academic Press

ISBN: 0123973155

Category: Technology & Engineering

Page: 480

View: 1161

Solar energy conversion requires a different mind-set from traditional energy engineering in order to assess distribution, scales of use, systems design, predictive economic models for fluctuating solar resources, and planning to address transient cycles and social adoption. Solar Energy Conversion Systems examines solar energy conversion as an integrative design process, applying systems thinking methods to a solid knowledge base for creators of solar energy systems. This approach permits different levels of access for the emerging broad audience of scientists, engineers, architects, planners, and economists. Traditional texts in solar energy engineering have often emerged from mechanical or chemical engineering fields. Instead, Solar Energy Conversion Systems approaches solar energy conversion from the perspectives of integrative design, environmental technology, sustainability science, and materials science in the wake of amazing new thin films, polymers, and glasses developed by the optoelectronics and semiconductor industries. This is a new solar text for the new generation of green job designers and developers. It’s highlighted with vignettes that break down solar conversion into useful stories and provides common points of reference, as well as techniques, for effective estimation of evolving technologies. Contextualizes solar conversion for systems design and implementation in practical applications Provides a complete understanding of solar power, from underlying science to essential economic outcomes Analytical approach emphasizes systems simulations from measured irradiance and weather data rather than estimations from "rules of thumb" Emphasizes integrative design and solar utility, where trans-disciplinary teams can develop sustainable solar solutions that increase client well-being and ecosystems services for a given locale

Emerging Materials for Energy Conversion and Storage

Author: Kuan Yew Cheong,Giuliana Impellizzeri,Mariana Amorim Fraga

Publisher: Elsevier

ISBN: 0128137959

Category: Technology & Engineering

Page: 488

View: 3576

Emerging Materials for Energy Conversion and Storage presents the state-of-art of emerging materials for energy conversion technologies (solar cells and fuel cells) and energy storage technologies (batteries, supercapacitors and hydrogen storage). The book is organized into five primary sections, each with three chapters authored by worldwide experts in the fields of materials science, physics, chemistry and engineering. It covers the fundamentals, functionalities, challenges and prospects of different classes of emerging materials, such as wide bandgap semiconductors, oxides, carbon-based nanostructures, advanced ceramics, chalcogenide nanostructures, and flexible organic electronics nanomaterials. The book is an important reference for students and researchers (from academics, but also industry) interested in understanding the properties of emerging materials. Explores the fundamentals, challenges and prospects for the application of emerging materials in the development of energy conversion and storage devices Presents a discussion of solar cell and photovoltaic, fuel cell, battery electrode, supercapacitor and hydrogen storage applications Includes notable examples of energy devices based on emerging materials to illustrate recent advances in this field

Advanced Solar Cell Materials, Technology, Modeling, and Simulation

Author: Fara, Laurentiu

Publisher: IGI Global

ISBN: 1466619287

Category: Technology & Engineering

Page: 354

View: 7495

While measuring the effectiveness of solar cell materials may not always be practical once a device has been created, solar cell modeling may allow researchers to obtain prospective analyses of the internal processes of potential materials prior to their manufacture. Advanced Solar Cell Materials, Technology, Modeling, and Simulation discusses the development and use of modern solar cells made from composite materials. This volume is targeted toward experts from universities and research organizations, as well as young professionals interested in pursuing different subjects regarding advanced solar cells.

Solar Cell Device Physics

Author: Stephen Fonash

Publisher: Elsevier

ISBN: 0323154638

Category: Technology & Engineering

Page: 352

View: 9165

Solar Cell Device Physics offers a balanced, in-depth qualitative and quantitative treatment of the physical principles and operating characteristics of solar cell devices. Topics covered include photovoltaic energy conversion and solar cell materials and structures, along with homojunction solar cells. Semiconductor-semiconductor heterojunction cells and surface-barrier solar cells are also discussed. This book consists of six chapters and begins by introducing the reader to the basic physical principles and materials properties that are the foundations of photovoltaic energy conversion, with emphasis on various photovoltaic devices capable of efficiently converting solar energy into usable electrical energy. The electronic and optical properties of crystalline, polycrystalline, and amorphous materials with both organic and inorganic materials are considered, together with the manner in which these properties change from one material class to another and the implications of such changes for photovoltaics. Generation, recombination, and bulk transport are also discussed. The two mechanisms of photocarrier collection in solar cells, drift and diffusion, are then compared. The remaining chapters focus on specific solar cell device classes defined in terms of the interface structure employed: homojunctions, semiconductor-semiconductor heterojunctions, and surface-barrier devices. This monograph is appropriate for use as a textbook for graduate students in engineering and the sciences and for seniors in electrical engineering and applied physics, as well as a reference book for those actively involved in solar cell research and development.

Fundamentals Of Solar Cells

Photovoltaic Solar Energy Conversion

Author: Alan Fahrenbruch,Richard Bube

Publisher: Elsevier

ISBN: 0323145388

Category: Technology & Engineering

Page: 580

View: 3228

Fundamentals of Solar Cells: Photovoltaic Solar Energy Conversion provides an introduction to the fundamental physical principles of solar cells. It aims to promote the expansion of solar photovoltaics from relatively small and specialized use to a large-scale contribution to energy supply. The book begins with a review of basic concepts such as the source of energy, the role of photovoltaic conversion, the development of photovoltaic cells, and sequence of phenomena involved in solar power generation. This is followed by separate chapters on each of the processes that take place in solar cell. These include solar input; properties of semiconductors; recombination and the flow of photogenerated carriers; charge separation and the characteristics of junction barriers; and calculation of solar efficiency. Subsequent chapters deal with the operation of specific solar cell devices such as a single-crystal homojunction (Si); a single-crystal-heterojunction/buried-homojunction (AlGaAs/GaAs); and a polycrystalline, thin-film cell (CuxS/CdS). This book is intended for upper-level graduate students who have a reasonably good understanding of solid state physics and for scientists and engineers involved in research and development of solar cells.

Renewable Energy Engineering

Author: Nicholas Jenkins,Janaka Ekanayake

Publisher: Cambridge University Press

ISBN: 1316849031

Category: Science

Page: N.A

View: 7277

This book provides a quantitative yet accessible overview of renewable energy engineering practice and the technologies that will transform our energy supply system over the coming years. Covering wind, hydro, solar thermal, photovoltaic, ocean and bioenergy, the text is suitable for engineering undergraduates as well as graduate students from other numerate degrees. The technologies involved, background theory and how projects are developed, constructed, and operated are described. Worked examples of the simple techniques used to calculate the output of renewable energy schemes engage students by showing how theory relates to real applications. Tutorial chapters provide background material, supporting students from a range of disciplines and ensuring they receive the broad understanding essential for a successful career in the field. Over 150 end-of-chapter problems are included with answers to the problems available in the book and full solutions at www.cambridge.org/jenkins, password-protected for instructors.

Practical Handbook of Photovoltaics

Fundamentals and Applications

Author: Augustin Joseph McEvoy,T. Markvart,Luis Castañer

Publisher: Academic Press

ISBN: 0123859344

Category: Science

Page: 1244

View: 9291

As part of the growing sustainable and renewable energy movement, the design, manufacture and use of photovoltaic devices is increasing in pace and frequency. The Handbook of Photovoltaics will be a 'benchmark' publication for those involved in the design, manufacture and use of these devices. The Handbook covers the principles of solar cell function, the raw materials, photovoltaic systems, standards, calibration, testing, economics and case studies. The editors have assembled a cast of internationally-respected contributors from industry and academia. The report is essential reading for: Physicists, electronic engineers, designers of systems, installers, architects, policy-makers relating to photovoltaics. A thorough update to the 'benchmark' publication from a cast of industrial and academic international experts ensures top quality information from multiple stakeholder perspectives Covers all things PV- from principles of solar cells and their raw materials, to the installation and design of full PV systems, including standards, testing, economics and environmental impacts Case studies, practical examples and reports on the latest advances take the new edition of this amazing resource beyond a vast collection of knowledge, into the realm of real world applications