Book Description
Producing electricity from the sun using photovoltaic (PV) systems has become a major industry worldwide. But designing, installing and maintaining such systems requires knowledge and training, and there have been few easily accessible, comprehensive guides to the subject.
Now, with Photovoltaics: Design and Installation Manual, a world-class solar energy training and education provider - Solar Energy International (SEI) - has made available the critical information to successfully design, install and maintain PV systems. The book contains an overview of photovoltaic electricity and a detailed description of PV system components, including PV modules, batteries, controllers and inverters. It also includes chapters on sizing photovoltaic systems, analyzing sites and installing PV systems, as well as detailed appendices on PV system maintenance, troubleshooting and solar insolation data for over 300 sites around the world. Used worldwide as the textbook in SEI's PV Design & Installation workshops, topics covered include:
- The basics of solar electricity
- PV applications and system components
- Solar site analysis and mounting
- Stand-alone and PV/Generator hybrid system sizing
- Utility-Interactive PV systems
- Component specification, system costs and economics
- Case studies and safety issues
Photovoltaics guarantees that those wanting to learn the skills of tapping the sun's energy can do so with confidence.
Customer Reviews:
Excellent book.......2007-09-13
This book was new and in excellent conditions. I really buy another book from Amazon. Also the shipping was very fast.
Not just fluff.......2007-07-23
Get into the ins and outs of PV installation. This book is actually too complicated for the casual observer since there are a lot of variables to designing a workable cost efficient (well, hopefully not costing more than need be) PV system. For instance, a materials list for a 12 volt DC battery and charge controller system consist of about 80 lines. Each with their own numbers!
Photovoltaics Design and Installation Manual.......2007-07-07
This is a low-cost and easy to read and understand book for designing and installing PV systems. I highly recommend it for interested students, engineers and contractors.
Renuable Energy Education for a Sustainable Future.......2007-05-16
Great book, easy to understand for everyone. We all need to work toward this kind of lifestyle. Including supporting our communities, making them more levable, and buying local.
So So Solar.......2007-05-13
Not a bad book, but it gives itself way too much credit by billing itself as a "Design and Installation Manual". This 315 page book could be condensed into a 50 page useful book entitled "A Basic Introduction to Considerations in Photovoltaic Design and Installation". It's choppy to read, and it has a lot of filler, generalities, and truisms. Expect a lot of this: "The major aspects of installing the photovoltaic array are choosing the most applicable mounting systems and making a proper installation". Some of the electrical theory is questionable. Still, it's the best book I've found, which means there is a great opportunity for a knowledgable PV systems integrator who can write well and put together a comprehensive, well-written text on the subject.
Book Description
The search for clean, renewable energy sources has yielded enormous growth and new developments in these technologies in a few short years, driving down costs and encouraging utilities in many nations, both developed and developing, to add and expand wind and solar power capacity. The first, best-selling edition of Wind and Solar Power Systems provided the most complete and modern treatment of renewable energy. This second edition continues the tradition by offering updated and expanded coverage of this growing field. The book begins with individual sections devoted to wind power and solar photovoltaic technologies, their engineering fundamentals, conversion characteristics, operational considerations to maximize output, and emerging trends. The discussion of wind power includes the theory of induction machine performance and operation as well as generator speed control, while the solar PV section includes array design, environmental variables, and sun-tracking methods. This edition includes two chapters devoted to new and specialized technologies. The third section explores large-scale energy storage technologies, overall electrical system performance, and total plant economy while the final section explores ancillary power systems derived from the sun. Focusing on the complete system rather than on a single component, Wind and Solar Power Systems: Design, Analysis, and Operation, Second Edition offers the most comprehensive reference to all aspects of modern renewable energy systems.
Customer Reviews:
Great book!.......2001-02-01
This book is a lucid, up-to-date and comprehensive reference for theory and practical matters surrounding our two most viable alternate energy sources. Be careful though because the first edition has a few typographical errors, one or two in its derivations.
An excellent, comprehensive text.......2000-10-26
Very readable, and accessible, even to a non-engineer.
Great reference book...........2000-09-14
This is a good reference book on renewable energy sources. It is well organized and easy to follow, even for non-electrical engineers. As an environmental engineer, I have found it an excellent reference.
Average customer rating:
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Crystalline Silicon Solar Cells: Technology and Systems Applications
Adolf Goetzberger ,
Joachim Knobloch , and
Bernhard Voss
Manufacturer: Wiley
ProductGroup: Book
Binding: Hardcover
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ASIN: 0471971448 |
Book Description
As environmental concerns escalate, solar power is increasingly seen as an attractive alternative energy source. Crystalline Silicon Solar Cells addresses the practical and theoretical issues fundamental to the viable conversion of sunlight into electricity. Written by three internationally renowned experts, this valuable reference profits from results and experience gained from research at the Fraunhofer Institute for Solar Energy Systems. Features include: Introduction to the principles of photovoltaics, providing a grounding in semiconductor physics for the novice reader Special emphasis on the methods of attaining high efficiency and thereby cost-effective solar power Examination of the physics, design and technology of crystalline silicon solar cells, in particular thin film cells Survey of a selection of alternative cell types equipping the reader with a complete overview Detailed description of measuring and analysis techniques to facilitate determining physical semiconductor and solar cell parameters Accessible to those with a basic knowledge of physics and mathematics, this is an excellent introductory book for students studying solid state and semiconductor physics. All those working in photovoltaic development and production will find Crystalline Silicon Solar Cells an indispensable resource.
Book Description
Solar electricity is the direct conversion of sunlight into electricity by solar photovoltaic cells. It is a truly elegant means of producing electricity on site, allowing you to take control of your energy destiny and create your own lifestyle without concern for energy supply or environmental harm. No pollution, no by-products, no depletion of resources, these solid-state devices simply make electricity out of sunlight. Solar electricity is the ideal source of power for an environmentally-responsive home where it's a luxury residence or a rustic vacation retreat. With the right design, the sunlight that falls on your homesite will power your home. Your solar electric system can also be easily configured to provide on-site recharging of solar/electric vehicles allowing you to meet your transportation needs with renewable energy. The Solar Electric House will tell you everything you need to know to decide if photovoltaics are for you, including: * Systems options and economics; * Stand-alone and utility interactive systems; * Descriptions of all key components; * How to determine your electricity requirements; * How to design a solar electric house
Customer Reviews:
Dont waste your money its an antique.......2007-08-07
Ive had this book 4 years it was out of date then. I recently bought The Renewable Energy Handbook by kemp which is far more up todate. 8 years in Solar Electrics is a lifetime, the equipment shown and discussed is fit for a museum,sure its solar electricy for the indepedant home, as a model t ford is for cruising the motorway,save your money!
Basic but Dated.......2006-11-10
The book has all the basic knowledge about how the physics of solar energy works but the examples of solar arrays is out of date. There are many new products on the market which are not covered in this book.
History.......2006-03-16
This book was valid in its time but it has not been revised in so
many years it is now history not technology. I returned it.
Excellent Book on Solar Energy.......2006-03-01
I am learning about solar energy and this book was written in a way that explained every detail clearly. I feel I could get my engineer's degree from reading this book.
Still Good.......2005-11-27
I bought this book in 2005, almost 20 years after the first publication of the book. I went through a couple of emotional phases while reading the book. First I thought this was a great book: it has so many practical details and insights. When I got to the part on system controls and routing the power, I realized that this part is probably fairly weak because of the passage of time. Then when I looked at a few other more recent publications such as The Renewable Energy Handbook for Homeowners, by Kemp published in 2003, I realized that the present book is still a solid investment for someone interested in solar-electric. A lot of the basic information is still valid and it is more a case of prices changing and some of the technology being a bit easier to use. I like the fact that the book just concentrates on solar. There are no diversions or philosophical discussions on wind power or similar to confuse the situation. However, if you are a homeowner and want to look at all the alternatives, I suggest the newer book by Kemp, but that book is a bit thin on solar-electric so the present book is still needed. Kemp has many good ideas on insulation and conservation. In any case, the present book is down to earth practical stuff on solar: how it works and how you install. So to make a long story short I recommend the book as a buy.
The book is written by Steven J. Strong an MA from Harvard and someone who has worked as a solar energy consultant before writing the book. He describes a number of his projects and they are scattered thoughout the book.
The book has 10 chapters and it starts with how photovoltaic (PV) cells were developed and how they are manufactured. He explains how the atmosphere itself absorbs some light energy. He explains the eficiency of the PV cells, and how to position the cells to maximize power. Then he goes on to explain the manufacturing processes in detail.
Chapter 2 covers the design of the system of cells, controls, and storage of the energy. Storage itself can be a simple idea such as pumping water into a holding tank from a well during the sunny hours, but usually it is more complicated and uses a battery system or returns the power to the grid for credit, if the house can be connected to the conventional supply system. He explains a lot of these details with references to geographic location, be it in Arizona, or New england, or on a mountain in Colorado.
Chapeter 3 is a lesson on how to wire the modules and arrays together so you can get the right voltage and power combination.
Chapter 4 covers batteries and power regulation. He has many pictures and tables showing availbale products. These of course must be updated with current products but it gives a starting point for the reader.
Chapter 5 is very short and covers power inverters and attachment to the grid. An inverter converts DC voltage from the PV cells into AC for the appliances as in a conventional home. Also it is needed for connection to the grid to get power credits. Finally, he presents some options for power back up generation.
Chapter 6 explains how to conserve energy and then how to match your requirements with the size of the solar system, i.e.: how to determine how much power you need.
Chapter 7 and 8 describe how to design a system connected to the grid, or to design a system completely standing on its own. He gives examples with photographs of existing installations and this includes seasonal variations in power generation.
The last two chapter 9 and 10 are on the actual installion of the components along with maintenance tips.
The book contains many photographs, charts, lists of suppliers for parts, and it has many example calculations on how the power is produced, stored, and what it costs. A lot of this information can be updated by the reader using the web.
This book is now a bit dated and the reader will have to update the information when buying parts, but overall it is still surprisingly good. 5 stars.
Book Description
The first comprehensive book on thin-film solar cells, potentially a key technology for solving the energy production problem in the 21st century in an environmentally friendly way. It covers a wide range of scientific and technological aspects of thin film semiconductors - deposition technologies, growth mechanisms and the basic properties of amorphous and nano-crystalline silicon - as well as the optimum design theory and device physics of high-efficiency solar cells, especially of single-junction and multi-junction solar cells. The development of large-area solar cell modules using single and multi-junction solar cells is also considered. Examples of recent photovoltaic systems are presented and analysed.
Book Description
Photovoltaics, the direct conversion of sunlight to electricity, is now the fastest growing technology for electricity generation. Present "first generation" products use the same silicon wafers as in microelectronics. "Second generation" thin-films, now entering the market, have the potential to greatly improve the economics by eliminating material costs. Martin Green, one of the worlds foremost photovoltaic researchers, argues in this book that "second generation" photovoltaics will eventually reach its own material cost constraints, engendering a "third generation" of high performance thin-films. The book explores, self-consistently, the energy conversion potential of advanced approaches for improving photovoltaic performance and outlines possible implementation paths.
Book Description
The author's second book is a hands-on book on how to install a solar electrical system. It covers, every aspect of a solar installation in great detail, including: electrical theory with emphasis on DC wiring, system design, electrical code, as well as components of a solar system down to quirks, nuts, and bolts. In its humorous language the book also looks at alternative energy politics, policies, and the industry through a critical eye.
Customer Reviews:
Great Solar Guide.......2007-01-06
This book is great. It covers the bases and gives the information one needs. It's a core book for this subject.
Seriously flawed.......2006-09-27
Pieper has a lot of practical knowledge but some things he writes are plain wrong. On page 17 he writes: "The frequency of the sine wave is measured as Hz per second" (should be cycles per second which is Hz). On page 18 he says: "the sine wave [is] 220 volts between two peaks" (should be 311 v; 220 is the RMS voltage). On page 23 he says: "amp hours [are] also refered to as amps per hour or amp/hours" (not true). In page 27 he writes: "At some point, the resistance gets so high that it creates heat inside the conductor" (there is always resistance and heat, the problem is the temperature rises too high). He also is convinced the minerals in petroleum jelly help conductivity on the battery terminals (pp. 123&159) and says "search current" when he means "surge current" (pp. 120&125). Whole pages are such confusing technical nonsense that it is impossible to to give a short account. He self published - he should have had a technically competent person help him with theory and a good how-to book editor help with the practical stuff. I'm sure he is a very competent electrician and there is some good practical information in the book, but it is nowhere near as advertised.
The Easy Guide To Solar Electric Part 2.......2006-05-24
I found this book at the public library in my search for a good guide to solar electric systems. I found a small amount of the information useful but, most was a waste of my time. The writer does not explain ideas in a very coherent manner. He uses a great deal of book space attempting to be funny and expressing his political views. If you are interested in a good solar electric book this is not it. I am still looking.
Finally a solar book I like.......2005-11-27
Reading both of Adi Pieper's books on solar I was pleasantly surprised. Being an analyst in the aviation industry, I come across many very boring and conformistic writings. This book is like a fresh breeze. You cannot describe the alternative form of energy generation without critically viewing the conventional forms available. Readers who do not understand this are sad examples of the energy problem we are presently facing. Compared to several other solar books available this book is inspiring, informative, technically precise (although their are two small mistakes with his math), and has helped me install my own solar system. I also reviewed two other books (refusing to name these, which is a cheap shot under the belt) which are boring and very confusing.
Thinly Disguised Demagoguery.......2005-09-21
By title, this book claims to be a "how to" guide. The first section, however, belies this by explaining that you should leave it to professionals. Having thus disposed of the technical aspects, the author fills the remainder of the product with self-righteous, ultra-greenie, anti-capitalist claptrap, unsupported by fact or even verifiable cites. Not even well written propaganda, and most certainly not useful to anyone wishing to learn anything useful about installing a PV system.
Average customer rating:
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Photovoltaic Conversion of Concentrated Sunlight
V. M. Andreev ,
V. A. Grilikhes , and
V. D. Rumyantev
Manufacturer: Wiley
ProductGroup: Book
Binding: Hardcover
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ASIN: 0471967653 |
Book Description
Recent achievements in sunlight concentration techniques have increased the potential of solar power as a viable source of renewable energy. Through its critical analysis of current methods, Photovoltaic Conversion of Concentrated Sunlight provides a comprehensive treatment of the issues involved in the creation of an efficient and cost-effective sustainable power resource. The authors introduce significant new original research and offer an insight into previously inaccessible Russian studies. Logically structured, the text presents both theoretical and practical advances in the field. Features include:
- Discussion of fabrication problems for both terrestrial and space photovoltaic installations
- Investigation of the impact of resistive losses on the operation of solar cells and new procedures for measuring components of internal resistance
- Explanation of the semiconductor physics underlying photovoltaics
- Examination of the most efficient concentrator solar cell structures and materials plus exploration of ways to improve cell performance
- Original theoretical and experimental results on luminescence phenomena in concentrator cells
- Useful measurement techniques for the determination of diagnostic cell parameters
- Analysis of energy characteristics of photovoltaic installations with high and low concentration ratios
An invaluable asset to industrialists and academics concerned with semiconductors and photovoltaics, this book will also serve environmental scientists through its examination of the problems associated with large-scale use of this ecological technology.
Book Description
Solar Electricity Second Edition Edited by Tomas Markvart University of Southampton, UK ".warmly recommended as a comprehensive, introductory text on a subject which should become increasingly important." (Review of the First Edition in Contemporary Physics) The rapid evolution of photovoltaic technology has highlighted the increasing capabilities of solar electricity as a power source for distributed energy generation. Building on the success of the first edition, Solar Electricity presents a balanced introduction to all aspects of solar energy conversion, from cell types to environmental impact and applications. Now fully revised to incorporate the latest industry achievements and featuring: New sections on the role of dye sensitised solar cells, photovoltaics in buildings, diesel hybrid systems, and photovoltaic markets and funding. Solar cell design and manufacturing technology including crystalline silicon and thin film devices. Introduction to a range of photovoltaic applications including rural electrification, grid connection issues, and the supply of electrical power to satellites in space. Illustrative case studies and self-assessment questions and answers at the end of each chapter. Undergraduate and postgraduate science and engineering students, practising mechanical and power engineers and those with a general interest in renewable energy will find this comprehensive text on invaluable reference. Solar Electricity, Second Edition forms part of the Energy Engineering Learning Package. Organised by UNESCO, this distance learning package has been established to train engineers to meet the challengs of today and tomorrow in this exciting field of energy engineering. It has been developed by an international team of distinguished academics, coordinated by Dr Boris Berkovski. This modular course will appeal to advanced undergraduates and post graduate students, as well as practising power engineers in industry. World Solar Summit Process Visit Our Web Page! http://www.wiley.com/
Customer Reviews:
Excellent introduction to PV.......2005-09-02
Tomas Markvart is well-known and highly regarded for his microgrid research at the University of Southampton and the Tyndall Centre. Solar Electricity was written for the UNESCO Energy Engineering Series distance learning package, and was intended to be self-contained and accessible to upper level energy engineering students everywhere. Published in 2000, it's still one of the best introductions to the engineering of photovoltaic systems. The detailed Table of Contents on this page gives a good overview of the subjects it covers.
One of the most helpfule guides for PV System Design.......2004-11-17
If you're looking for a start book on Photovoltaics (PV),this is the one to start with. Dr. Markvart takes you from the principle of solar irradiation, to complete design of a PV generator. He explains himself very easily when talking about solar cell's operation and manufacturing process. When he arrives to PV System Engineering, he shows you exactly all the steps you have to follow for sizing a proper PV system. IF what you're looking for is complete design procedures for PV system, including charge controllers, inverters, battery chargers, this is a good start, but will not help much for designing purpouses. For this you should look for Photovoltaic System Engineering by Dr. Roger Messenger. Another good book by Markvart is Practical PV Handbook; together with Solar Electricity, is a great pack for designers or scientifics working with PV systems.
Highly recommended for those interested in PV.......2001-04-07
This book is one of the best I have read on the subject of photovoltaic (PV) systems. It has a good balance between all areas of PV system design. Most books with this level of technical content are too skewed toward semiconductor physics and neglect system-level issues. This one covers everything from PV devices (solar cells) to power converters to batteries to system design, and includes useful sections on justification for PV, system application examples, and environmental impacts. The organization and flow are clear and logical. The only problems are some unclear typesetting, exclusion of background on some key equations (references to the literature are included, though), and a little bit of non-standard notation (i.e. G is used for irradiation, not irradiance). Summary: I highly recommend this book for technically literate readers interested in PV systems.
Book Description
Solar electricity is a viable, environmentally sustainable alternative to the world’s energy supplies. In support, Dr. Krauter thoroughly examines the various technical parameters of photovoltaic systems. Study of performance and yield (including optical, thermal, and electrical parameters and interfaces) are analyzed. The net energy balance of photovoltaic systems – from production, operation and maintenance, to recycling – is explored. Professor Krauter demonstrates how the importance of accurate yield calculations, optimal system performance, and new prototypes aid in cost reductions. The potential of solar electric power generation as a means to significantly reduce CO
2 emissions is also detailed. In addition, various locations for the production and installation of photovoltaic power plants are considered – with surprising results. Examples, tables and figures are included.
Customer Reviews:
excellent.......2006-07-12
Finally someone wrote a book that also treats the interface from the solar cell to the operating conditions in a real environment.
Very nice are also the LCAs (including energy (and CO2) payback via recyling) for different sites of application.
Energy supply via photoelectric power generation - globally.......2006-07-11
This book explores the real potential of solar electric power generation in order to reduce CO2 emissions and prevent the planet from global warming. For this purpose the author analyses the entire energy balance of photovoltaic power plants during their life time from the production to the recycling - taking into account the whole system. He considers all optical interfaces and layers passed by the sunlight from the sun into the solar cell, thermal layout of any photovoltaic module and its heat transfer mechanisms, its related actual electrical properties, allowing an accurate calculation of yield and an optimization of system components, thus reducing costs for solar electricity. Different locations for production and installation of photovoltaic systems are also considered. The concluding message is: If applied in an intelligent way, global energy supply via photo-electric power generation is widely possible.
Books:
- Physics for Scientists and Engineers, Vol. 1 (Third Edition)
- Physics for Scientists and Engineers with Modern Physics, Third Edition
- Physics of Ice
- Physics of Semiconductor Devices
- Physics of Sound, The (3rd Edition)
- Physics of Sound, The (3rd Edition)
- Physics: Principles with Applications (6th Edition)
- Practical Design and Production of Optical Thin Films, Second Edition, (Optical Engineering, 79)
- Quantum Computation and Quantum Information
- Quantum Field Theory: From Operators to Path Integrals
Books Index
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