Literature on general issues of alternative energy. Literature on general issues of alternative energy M.Golitsyn, A.M.Golitsyn, N.V.Pronina

This section of our library collects books and articles on the general problems of alternative energy, the rationale for the transition from traditional fossil fuels to renewable energy sources. If you have materials that are not presented here, please send these materials for publication in our library.

M.V. Golitsyn, A.M. Golitsyn, N.V. Pronina. «Alternative Energy Sources»

Ed. Nauka, Moscow, 2004, .djvu format.

The prospects of various energy sources are considered in detail - from coal, oil and gas to the use of alternative energy sources - the sun, wind, ocean, internal heat of the earth, bioenergy, non-traditional uses of coal, oil shale, etc.

Sven Udell.

Ed. "Knowledge", Moscow, 1980, format - .djvu.

"Renewable Energy in Russia"

Ed. International Energy Agency, 2004, .djvu format.

The main objective of this study is to contribute to the discussion and formation of Russian policy in the field of energy and climate change.

Gevorkian P.

The McGraw-Hill Companies, 2009, in English. language, .pdf format, size 11.97 MB.

Practical advice on designing some of the most commercially viable alternative energy technologies. illuminated Construction Materials, deployment of systems of typical installations, as well as their impact on the environment. Provides information on LEED design, energy conservation, solar energy financing, return on investment.

Velitsko V.V., Prokhorov A.I. .

The format is .pdf.

A set of technologies is considered that makes it possible to create highly efficient power plants operating both with the use of renewable energy sources and with the use of local types of fuel, as well as qualified fuels (fossil natural gas, SPBT, fuel oil, etc.). All of the above technologies can be implemented separately, but together they allow obtaining a synergistic effect in the form of a technology for creating mini-CHPs operating using solar, geothermal energy, low-grade local fuels (shale, peat, biomass, etc.), providing efficiency at a level of at least 50%.

International Energy Agency (IEA). "Energy Efficiency Indicators: Policy Framework"

Ed. IEA, 2014

Energy efficiency is becoming an increasingly important policy priority in many countries around the world. Energy efficiency measures, by reducing or limiting energy consumption, can increase resilience to a variety of risks, such as rising and volatile energy prices, stress on energy infrastructure, and disruptions in energy supply systems. The reference guide Energy Efficiency Indicators: A Policy Framework and the companion publication Energy Efficiency Indicators: A Statistical Framework (IEA, 2014) serve to provide necessary tools in the process of starting or deepening the development of detailed indicators to support the formation of an effective energy efficiency policy. The aim of Energy Efficiency Indicators: A Policy Framework is to provide energy analysts with the tools they need to identify priority areas for developing energy efficiency indicators, and to select and develop the data and indicators best suited to support energy efficiency policy. The information obtained through these indicators will help politicians set energy efficiency goals and track progress towards them.

L.M. Chetoshnikov.

Publishing Center of SUSU, textbook, 2010, format — .pdf.

AT study guide the theoretical and practical material for conducting practical classes on the course "Non-traditional renewable energy sources" is presented. Tasks are presented for calculating the power of solar panels, a wind power plant, and a small hydroelectric power station.

Volker Quaschning. "Understanding Renewable Energy Systems"

Ed. Carl Hanser Verlag GmbH & Co KG, 2005, .pdf format, English language.

The book discusses the general problems of the need for renewable energy, explores in detail the use of solar radiation to build thermal systems and photovoltaic converters, a separate chapter is devoted to the use of wind energy.

"Power Systems of the Future"

National Renewable Energy Laboratory Publication, February 2015, .pdf, English.

Significant changes in technology, environmental policy, financing and business models are leading to global changes in the energy supply sector. In light of these changes, the question is no longer “Will there be a transition to new energy systems?”. Rather, the question should be, "How soon will this transition happen?" This paper explores the paths and approaches that will serve as a model for such a transition.

Alexander Vladimirovich Frolov

New Energy Sources

Dedicated to my parents, teachers and colleagues.

From the possible to the real!

Foreword

In 2010, twenty years have passed since I started working in such a fascinating field of natural science as alternative energy. In the 1990s, Russia experienced not only qualitative changes in politics and economics, but also new opportunities for expanding the horizon of knowledge. Some of the newspapers had private advertisements in English, and one of them caught my attention. It was about some new inventions ... they wrote about "energy sources that do not require fuel." Fiction?! We began to correspond, gradually the circle of acquaintances increased, and I began to receive by mail the most interesting books, conference materials and articles about the work of scientists and inventors in different countries peace. At the same time, he studied English.

Since 1991, I have taken part in scientific conferences, where I met many Russian and foreign scientists - researchers. In 1994, I bought my first computer and started talking online. In 1996, we organized the international conference "New Ideas in Natural Science" in St. Petersburg. We have brought together over a hundred speakers from Russia and 30 researchers from other countries. In 2001, together with partners, we created the Faraday Laboratory of New Technologies LLC company, began experimental work and published the international journal New Energy for several years. These processes undoubtedly influenced technological progress in general, as a wide exchange of ideas and practical knowledge gave its results.

The modern community of people interested in these topics is very heterogeneous in terms of professional training, but has representatives in all technologically advanced countries. We are united by the fact that the main directions of our research lead to the creation of new types of energy sources that do not require hydrocarbon or other fuels, do not depend on the sun and wind, as well as to the introduction of new modes of transport that do not use the jet principle. These changes characterize the quality new level development of civilization. The importance of these areas was obvious twenty years ago, but then the world was not ready for their development and implementation. Maybe that's why the crisis came...

However, the current situation for the introduction of these technologies is very favorable, thanks to this crisis, which arose at the beginning of the 21st century and continues to deepen. Cause of the crisis in the modern world economy - artificial monopoly on fuel technologies in transport and energy supply, from where artificial price anchoring for oil against the dollar. The only solution is to change the fuel concept to the refusal of fuel. Modern technologies already allow to receive energy without fuel, without sun and wind. This is not fantasy. As a result, all industries can reduce costs and increase profitability, especially transport and agricultural production. Only those countries that quickly develop the production of new energy sources, of any capacity, will be able to raise the level of their production and reduce prices. They will be able to compete... The crisis develops precisely because world economy"grew" from the fuel system, it is cramped in the old framework. New technical solutions have long been found, but they are not allowed to develop for a simple reason: raw material monopolists are trying to maintain their status, instead of developing new markets and new power engineering that works without fuel.

Only a change in the outdated fuel concept of energy can bring the economies of countries to a new level of development and stop wars for raw materials. This meets the needs of the economy in a qualitative expansion of the market for goods and services, and also leads us to a new understanding of the structure of space-time, and the development of fundamentally new ways of moving in space, including in space.

Arguments about "perpetual motion machines" on the Internet are often very contradictory, so one of the important tasks is to restore the terminology, cleansing the primary author's information from the conjectures of the "followers". For example, the term "free energy" used here differs from the physical concept "free energy of a particle of matter". Here it has the meaning of the phrase translated from English "free of charge energy", which means "free energy". In the Russian version, the term "free energy" also gives an understanding of the results and prospects for the introduction of such new technologies: energy consumers are freed from the need to use fuel and pay for energy resources. Of course, there are such financial characteristics as the cost of manufacturing technical devices - energy sources and maintenance costs. You cannot create a technical device for free, moreover, the cost of some constructive solutions in the free energy region is quite high. However, in cases such as when replacing gasoline, diesel and gas turbine power plants with modern generators that do not require fuel, the investment pays off quite quickly. The high demand for such technologies is also due to the possibility of reducing the cost of transportation, including sea and air. Increasing profits in the production of any product, especially agricultural, as well as all work performed by powerful machinery with internal combustion engines that consume fuel. Another important applied aspect of such technologies is the autonomy of housing and other facilities.

The topic is very extensive... I will try to tell you about the most interesting projects in these twenty years. I hope this book will help you develop your own research.

I wish you experimental success!

Frolov Alexander Vladimirovich

Chapter 1 Our Goal and the Means to Achieve it

The development and well-being of the city, the success of the nation, the progress of the entire human race is determined by the energy at its disposal. We should not be content with just improving steam engines or the invention of new batteries. We have something better to work for, a greater task. We must develop methods for obtaining energy from sources that are inexhaustible, improve methods that do not require the consumption and expenditure of any materials.

Nikola Tesla "Mission of Science", 1900

Every meaningful activity has a purpose. In this case, this goal is to free society from energy dependence, which should lead to the creation of better conditions for its development, including strengthening the economy and defense capability.

There are different forms of addiction, such as drugs or tobacco. A person who is dependent on some need does not have complete freedom action, that is, cannot develop normally, and degrades. Similarly, businesses and economies of entire countries dependent on energy resources are limited in their development. Of course, this is sometimes used as political leverage for managing regions and countries ... this, so to speak, modern form geopolitical feudalism. The economy of the energy exporting countries is directly dependent on this process, which makes it one-sided and vulnerable.

Military technical specialists, having familiarized themselves with the materials presented in this book, will be able to use them in the design of qualitatively new models of military equipment and weapons. On the other hand, new energy technologies lead to greater political stability, reducing the reasons for wars over oil and gas resources.

The world is changing as a result of the introduction of new technologies. At the same time, due to the appearance of free time and comfortable conditions, the person receives Better conditions for development, although not all people reasonably use these conditions. The time when everyone will be able to take advantage of free energy technologies will be the beginning of a truly civilized era. The understanding will come that we live in an ocean of energy, it is a gift from God, then the monopoly of fuel traders will end.

Now, in 2012, we are calmly accepting some energy sources that do not require fuel, such as using sunlight. We understand them as converters of one type of energy into another. Similar technologies make it possible to obtain thermal energy by absorbing environmental energy ( heat pumps), and such devices are no longer surprising with their performance indicators.

For example, in a conventional air conditioner, 1 kilowatt of electricity spent on the operation of the compressor and circulation pump, makes it possible to transfer 4-7 kilowatts of heat from the external environment to the house, or cool the room in the same economical way. Future technologies that convert energy from other sources into heat, or into electricity for the consumer, will seem strange and surprising at first, but we will get used to them.

In this section you can find books on alternative energy, download magazines and brochures about alternative energy sources. You can also offer your literature for placement. related topics. Write to us via .

Wind power

001. "How to make your own wind turbine" E.M. Fateev ()
002. "Wind turbines and wind turbines" E.M. Fateev ()
003. "Inexhaustible energy. Book 1 Wind Power Generators
004. "Loads on the elements of a wind power plant, on its foundation and base"V. V. Elistratov, I. A. Konstantinov, A. A. Panfilov ()
005. "Library of the young designer. The simplest wind farm"B. B. Kazinsky ()
006. "Inexhaustible energy. Book 2 Wind Energy" V. S. Krivtsov, A. M. Oleinikov, A. I. Yakovlev ()

solar energy

001. "silicon solar panels"Gliberman A.Ya., Zaitseva A.K. ()
002. "Solar heating and cooling systems" Sarnatsky E.V., Chistovich S.A. ()
003. "solar energy"Umarov G. Ya., Ershov A. A. ()
004. "Sun"G. A. Aristov ()
005. "Residential buildings with autonomous solar heat and cold supply"S. Tanaka, R. Suda ()

Ecology

001. "Garbage sorting lines: application prospects", V.G. Petrov, A.A. Chechina ()
002. "weather control", I. M. Bekkerman, L. V. Samsonenko ()
003. "Disposal Wastewater ", edited by T. A. Karyukhina ()
004. "The most amazing fossil", I.A. Filippovsky ()

Technology

001. "LEDs", F. Schubert ()
002. "Silicon - the material of nanoelectronics", N. Gerasimenko, Yu. Parkhomenko ()
003. "Electrochemical energy", Korovin N. V. ()
004. "Electrochemical technology inorganic substances, and chemical current sources", Zaretsky S. A., Suchkov V. N., Zhivotinsky P. B. ()
005. "Motor fuels from alternative raw materials", G.A. Terentiev, V. M. Tyukov, F. V. Smal ()
006. "Alternative energy carriers", M. V. Golitsyn, A. M. Golitsyn, N. M. Pronina ()
007. "Electric car: technology and economics", V. A. Shchetina, Yu. Ya. Morgovsky ()
008. "Electric vehicle calculation", Busygin B.P. ()
009. "Introduction to hydrogen energy", E. E. Shpilraid, S. P. Malyshenko ()
010. "Individual greenhouses in a modern dwelling", translated from Finnish by V.P. Kalinin ()
011. "Thermoelectric generators", Bernshtein A. S. (

Chopra K., Das S.
Translation from English with abbreviations. - Moscow: Mir, 1986. - 435 p. with illustrations

The fundamental work of scientists from India, considering the application of thin-film photoconverters. Most of the research is devoted to the study of the properties of semiconductor films. Research work were carried out mainly with silicon films, as well as with films based on copper sulfide.

The purpose of these works was to create a basis for the production of promising thin-film photoconverters and, ultimately, the manufacture of light but powerful solar cells.

The book is intended for developers of modern element base of solar energy.

N. Gerasimenko, Yu. Parkhomenko.
Moscow: Technosphere, 2007. - 351 p. with illustrations.

This monograph deals with the application of silicon in such rapidly developing areas as nanoelectronics and nanophotovoltaics. The effects and processes in quantum-dimensional film structures, the possibilities of their practical use in the development and production of thin-film photoconverters are investigated. Representations on physical restrictions are given. Also considered promising technologies for the production of nanosized silicon films.

IN AND. Vissarionov, G.V. Deriugina, V.A. Kuznetsova, N.K. Malinin
Moscow: "Solar Energy" MPEI, 2008. - 317 p.

This book is of interest to professionals involved in the design of helium energy systems. The main provisions of this direction are systematized. An original technique has been developed to perform calculations for various helium power plants. The functioning of helium power plants in various systems and in different modes is considered. A technique for calculating the useful power of solar radiation for receiving surfaces with arbitrary parameters is given.

In addition, various layout options are considered. technical means, as well as the characteristics of various power plants - solar collectors, photoelectric converters. Attention is paid to the environmental aspects of the use of solar energy.

Byers T.
Translation from English. - Moscow: Mir, 1988. - 197 p. with illustrations.

This book, written by an American engineer, simply and intelligibly tells about devices that convert the energy of sunlight into electrical energy. The design of twenty devices powered by solar electricity is described in detail. Each of these devices was thought out in the most scrupulous way, its energy part was carefully calculated, the parts were manufactured and tested, and the assembly itself passed more than one test. These structures are very diverse. From souvenir models to powerful chargers working on solar batteries.

The book will undoubtedly appeal to lovers of tinkering, doing a variety of things with their own hands.

Stan Gibilisco
Translation from English. - Moscow: Eksmo-Press, 2010. - 368 p. with illustrations.

Stan Gibilisco is a talented radio engineer, scientific columnist, writer, author of many works in the field of electronics, applied sciences, mathematics, computer science, energy. His books, written in a lively, accessible language, sometimes with subtle humor, quickly become bestsellers. This book was no exception. In it, the author talks in an accessible form about what can replace traditional fossil energy sources.

The twelfth chapter of the book is entirely devoted to solar energy. The author considers various types of solar power plants - from the largest to the smallest, home, analyzes different kinds photoconverters, gives practical advice on the use of solar panels.

Construction of Solar Collectors for Hot Water (Practical Guide)

Regina Drexel, Rostom Gamisonia
Translation from German. Publication WECF e.V, Women in Europe for a Common Future: April, 2010. - 28 p. with illustrations.

WECF is an international environmental network, which includes dozens of women's organizations, as well as environmental associations from forty countries, promotes an environmentally friendly environment and implements related projects in Eastern Europe, in the Caucasus, in Central Asia. WECF partners are the University of Savoy and the SOLAR association.

This brochure covers solar hot water, discusses various models solar collectors, as well as instructions for self-manufacturing and installing an inexpensive solar water heater at home. All materials are available at any hardware store. This DIY helium manifold will reliably supply hot water all year round, even at very low temperatures in winter.

Kharchenko N.V.
Moscow: Energoatomizdat, 1991. - 208 p.

The book describes in detail various designs helium installations for supplying houses with hot water. The methodology and examples of calculations of typical structures are given, advice is given on the selection necessary components. The publication contains instructions for the collection of solar installations for houses, farms, swimming pools, heating greenhouses, organizing combined heating country houses and dachas from various solar collectors.

Each individual case of using helium collectors has its own, original design features. Nevertheless, there are principles of their construction common to all devices, which are described in this book. The criteria for the expediency of using one or another design of solar collectors for various applications are described.

Translation from Hungarian. ─ Budapest: GB-GANZ Tüzelestechikai Kft, 2007. - 32 p. with illustrations.

A very useful brochure for professionals working in the helium energy industry and dealing with the problems of heating and hot water supply of houses. The book gives a general overview of the possibilities of using the radiation of the Sun as a free eternal source of energy. Consideration is given to the application various types solar collectors, their effectiveness to obtain the desired results. Recommendations are given for the correct and most efficient installation of solar collectors of various types.

Aspects of the practical application of solar radiation energy in systems with temperatures below 70°C, as well as special issues on the use of solar energy, are considered. The elements of the design systems of helium installations for hot water supply and heating when using solar collectors of various types are considered in detail. Are given typical schemes connection of various collectors to the water supply and heating system.

practical designs for the use of wind, sun, earth, water, biomass energy
Germanovich V., Turilin A.
St. Petersburg: Science and Technology, 2014. - 320 p.

The problem of replacing fossil fuels is becoming relevant not only on a planetary scale. Increasingly, alternative sources of energy are being used to meet energy needs, either electrical or thermal. power plants. It can be solar, wind, hydraulic, biological installations. The book analyzes in detail the various options for using non-traditional energy sources. Moreover, the problems of using such sources are considered not only on the scale of any region, district, but also for individual use.

Several chapters of the book are devoted to the use of solar energy to provide electricity and heat to individual buildings: country houses, summer cottages, greenhouses, etc. Both industrial power plants for individual use and self-made are considered. Practical recommendations for self-manufacturing of solar systems are given. Examples of structures for making them with your own hands are given, in particular solar panels, collectors, heating systems.

Kashkarov A.P.
Moscow: DMK Press, 2011. ─ 144 p.

In the book, among other things, readers are popularly told about how the solar radiation is converted into electrical and thermal energy. A special section describes in detail non-standard electronic devices that are somehow related to energy converters. The relevant sections deal in detail with the rules for building home power plants.

A detailed analysis and comparison of some modifications of helium panels and their description is given. Simultaneously given detailed descriptions, diagrams, as well as tips on how to assemble some electronic control circuits for arranging a country dwelling with your own hands. For practical application, a list of powerful solar panels is given, as well as recommendations for assembling various elements and structures of home power plants. At the end of the book there are various reference books, as well as other information that may be useful to readers who prefer to make their own hands.

McWeig D.
Moscow: Energoizdat, 1981. ─ 216 p.

The scope of this book is rather narrow. Here, mechanisms for using solar energy to provide hot water and heating for residential premises are considered. First, the theoretical aspects of the problem are outlined, various approaches to solving specific problems in the use of solar energy are studied. After the exposition theoretical foundations the author moves on to practical issues. Numerous designs of helium collectors are considered in detail by nodes, and highly specific design parameters and ratios are given for each type of collector.

Specific schemes of solar hot water supply, heating, as well as air conditioning are given, various implemented and successfully operating installations are considered. Shown as an example performance characteristics obtained from helium plants operating in real "solar" houses. In addition, other forms of using the energy of solar radiation are briefly outlined, for example, for obtaining cold, desalination, etc.

Potapov A.S.
Moscow: Transport, 1996. ─ 166 p.

The book tells about the prospects for the development of helium energy, about the history of the creation of environmentally pure species transport operating on electricity, about autonomous vehicles, for the engines of which the Sun provides energy. These are solar cars, yachts, boats with helium panels on board, the so-called sun-flyers, the wings of which are giant solar panels, these are airships, the hulls of which are covered with flexible helium batteries ...

The author of the book, a young scientist, candidate of technical sciences, leads a team of young solar transport enthusiasts, very excitingly conveyed quite complex but interesting material to readers, tells about direct participation in international competitions - a rally of cars powered by solar energy. The book is intended for a wide range of readers who are interested in the latest developments in the field of solar energy and environmentally friendly transport.