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Books : Professional & Technical : Engineering : Energy : Hydroelectric
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Waterpower is the largest source of renewable energy in the world today, and microhydro is a mature, proven technology that can provide clean, inexpensive, renewable energy with little or no impact on the environment.
Serious Microhydro brings you dozens of firsthand stories of energy independence covering a complete range of systems, from household pressure sites to higher pressure installations capable of powering a farm, business, or small neighborhood. Topics include:
- Low head and medium head sites
- AC-only systems as well as ones using a battery/inverter subsystem
- Stand alone power supply or grid intertie setups
- Hybrid systems (combined with photovoltaics or wind)
With all the variables involved in microhydro, there is no “typical” system. These case studies represent the most comprehensive collection of knowledge and experience available for tailoring an installation to meet the needs of a site and its owner or operators. If you are considering building a system, you are bound to find a wealth of creative solutions appropriate to your own circumstances.
Serious Microhydro shows how scores of people are achieving a high standard of living from local energy sources with a minimal ecological footprint. It has particular appeal to homeowners, teachers, renewable energy professionals, activists, and decision makers who want to understand the technology from a “hands-on” perspective.
Scott Davis is an award-winning renewable energy project developer with decades of experience operating, installing, designing, selling, and teaching microhydro technology. He is a founder and president of Friends of Renewable Energy BC, and the author of Microhydro: Clean Power From Water.
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This book has grown from Intermediate Technology's field experiences with micro-hydro installations and covers operation and maintenance, commissioning, electrical power, induction generators, electronic controllers, management, and energy surveys.
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Planning and construction of the James Bay Hydroelectric project began in the early 1970s, when the effect of such projects on the physical and social environment was seldom considered. As the project matured, however, its unique and diverse environmental impacts came under intense scrutiny on both sides of the border. The first mega-scale hydro project to be built in the sub-Arctic, capable of generating as much electricity as fifteen nuclear power plants, its impact includes disruption of vast areas in an extremely fragile ecosystem as well as displacement of native peoples and the introduction of dangerous levels of mercury into their food supply.The debate over these complex environmental issues has been further complicated by political issues stemming from the importance of the project to the economic development of Quebec and the sale of at least ten percent of the electricity generated the United States. The contributors examine core issues of the controversy both in relation to James Bay and to other large hydroelectric projects, such as the Aswan dam in Egypt and the Three Gorges dam in China.Providing insights from an unusual variety of disciplines, the authors offer important considerations that must be taken into account as Quebec assesses additional phases of hydroelectric development of the watershed east of Hudson Bay. Contributors include Raymond B. Coppinger (Hampshire
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Dneprostroi, a dam and power plant that was one of the most monumental construction projects of the Bolsheviks' First Five-Year Plan, was a milestone in American-Soviet cooperation and the fruit of the labor of more than 60,000 workers. Little known in the West, Dneprostroi was famous in the USSR--as the largest earth dam in Europe in the 1930s, it represented the first of the giant projects so favored by Stalin. Anne Rassweiler's informative history of this project reveals new aspects of the struggle between Trotsky and Stalin, the debate on the use of foreign advisers, the importance of foreign technology, and the devastating effects of collectivization on the industrial projects of the First Five-Year Plan. Her study also provides insight into the entry of women into the industrial work force and the interaction between party leaders, party membership, and enterprise officials as they sought to realize one of the most ambitious projects in Soviet history.
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During the past fifty years, Canadians have seen many of their white-water rivers dammed or diverted to generate electricity primarily for industry and export. The rush to build dams increased utility debts, produced adverse consequences for the environment and local communities, and ultimately resulted in the layoff of 25,000 employees. White Gold looks at what went wrong with hydro development, with the predicted industrial transformation, with the timing and magnitude of projects, and with national and regional initiatives to link these major projects to a trans-Canada power grid.
Karl Froschauer examines five major hydroelectric projects -- Niagara Falls (Ontario), Churchill Falls (Labrador), James Bay (Quebec), the Nelson River (Manitoba), and the Peace River (British Columbia) -- applying a political economic perspective that unifies his analysis of patterns of hydro development in Canada. He points out that in the 1960s and 70s federal and interprovincial conflicts over transmission line ownership, hydro plant investments, extra-provincial authority, and export agendas undermined several national and regional power grid initiatives. He then argues that if the provinces had chosen to integrate their power project within a national electricity network, substantial technical, economic, and environmental advantages could have resulted. Instead of providing the infrastructure for a n
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Farm Equipment
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This text presents the scientific principles and developmental potential of ocean energy resources. It discusses the key factors of OTEC systems, as well as co-products, plus the possible mitigation of global warming with the absorption of atmospheric carbon dioxide. Concludes with an overview of the economic viability, market potential and capital cost estimates. Specific questions and answers are set at the end of each section.
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Hydroelectric power stations are a major source of electricity around the world; understanding their dynamics is crucial to achieving good performance. The electrical power generated is normally controlled by individual feedback loops on each unit. The reference input to the power loop is the grid frequency deviation from its set point, thus structuring an external frequency control loop. The book discusses practical and well-documented cases of modelling and controlling hydropower stations, focused on a pumped storage scheme based in Dinorwig, North Wales. These accounts are valuable to specialist control engineers who are working in this industry. In addition, the theoretical treatment of modern and classic controllers will be useful for graduate and final year undergraduate engineering students. This book reviews SISO and MIMO models, which cover the linear and nonlinear characteristics of pumped storage hydroelectric power stations. The most important dynamic features are discussed. The verification of these models by hardware in the loop simulation is described. To show how the performance of a pumped storage hydroelectric power station can be improved, classical and modern controllers are applied to simulated models of Dinorwig power plant, that include PID, Fuzzy approximation, Feed-Forward and Model Based Predictive Control with linear and hybrid prediction models.
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A concise, comprehensive presentation of all aspects of hydro-power exploitation using micro-power stations. Offers engineers guidance to techniques for assessing the power available from a given stream, designing and building siteworks, selecting the appropriate turbine types for given conditions, and measuring and controlling environmental hazards associated with micro-hydro installations.