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A nuclear power plant ('''NPP''') is a Thermal Power Station in which the heat source is one or more Nuclear Reactor s generating Nuclear Power . Nuclear power plants are Base Load stations, which work best when the power output is constant (although Boiling Water Reactor s can come down to half power at night). Their units range in power from about 40 MWe to over 1000 MWe. New units under construction in 2005 are typically in the range 600-1200 MWe. . History Electricity was generated for the first time by a Nuclear Reactor on December 20 , 1951 at the EBR-I experimental station near Arco, Idaho in the United States . On June 27 , 1954 , the world's first nuclear power plant that generated electricity for commercial use was officially connected to the Soviet Power Grid at Obninsk , Kaluga Oblast , Russia . For more history, see Nuclear Reactor and Nuclear Power . For information on the Chernobyl Accident which did not have a containment building, see that subject and RBMK and Nuclear Power . Types of nuclear power plants Nuclear power plants are classified according to the type of reactor used. However some installations have several independent units, and these may use different classes of reactor. In addition, some of the plant-types below in the future may have Passively Safe features. Fission reactors Fission power reactors generate heat by Nuclear Fission of Fissile Isotopes of Uranium and Plutonium . They may be further divided into three classes:
Thermal reactor classes
Fast reactors Although some of the earliest nuclear power reactors were Fast Reactor s, they have not as a class achieved the success of thermal reactors. Fast reactors have the advantages that their Fuel Cycle can use all of the uranium in Natural Uranium , and also transmute the longer-lived Radioisotope s in their waste to faster-decaying materials. For these reasons they are inherently more sustainable as an energy source than thermal reactors. See Fast Breeder Reactor . Because most fast reactors have historically been used for Plutonium production, they are associated with Nuclear Proliferation concerns. More than twenty prototype fast reactors have been built in the USA, UK, USSR, France, Germany, Japan, and India, and as of 2004 one was under construction in China. These include:
(Electric output shown is the highest output configuration where several were used, dates shown are first criticality, and last criticality in the case of a plant that is now decommissioned.) Fusion reactors Main article: Fusion Power Nuclear Fusion offers the possibility of the release of very large amounts of energy with a minimal production of Radioactive Waste and improved safety. However, there remain considerable scientific, technical, and economic obstacles to the generation of commercial electric power using nuclear fusion. It is therefore an active area of research, with very large-scale facilities such as JET , ITER , and the Z Machine . Advantages and disadvantages Advantages of NPPs are:
Disadvantages are:
Nuclear power is highly controversial, enough so that the building of new nuclear power stations has ceased in Europe (except in Finland and Ukraine). Almost all the advantages and disadvantages are disputed in some degree by the advocates for and against nuclear power. The cost benefits of nuclear power are also in dispute. It is generally agreed that the capital costs of nuclear power are high and the cost of the necessary fuel is low compared to other fuel sources. Proponents claim that nuclear power has low running costs, opponents claim that the numerous safety systems required significantly increase running costs. Disposal of spent fuel and other Nuclear Waste is claimed by some as an advantage of Nuclear Power , claiming that the waste is small in quantity compared to that generated by competing technologies, and the cost of disposal small compared to the value of the power produced. Others list it as a disadvantage, claiming that the environment cannot be adequately protected from the risk of future leakages from long-term storage. Accident indemnification The Vienna Convention On Civil Liability For Nuclear Damage puts in place an international framework for nuclear liability {Link without Title} . However states with a majority of the world's nuclear power plants, including the U.S. , Russia , China and Japan , are not party to any international nuclear liability conventions. In the U.S. , insurance for Nuclear or radiological incidents is covered (for facilities licensed through 2025 ) by the Price-Anderson Nuclear Industries Indemnity Act . In the UK , the Nuclear Installations Act of 1965 governs liability for nuclear damage for which a UK nuclear licensee is responsible. The Act requires compensation to be paid for damage up to a limit of £150 million by the liable operator for ten years after the incident. Between ten and thirty years afterwards, the Government meets this obligation. The Government is also liable for additional limited cross-border liability (about £300 million) under international conventions ( Paris Convention On Third Party Liability In The Field Of Nuclear Energy and Brussels Convention Supplementary To The Paris Convention ). {Link without Title} In popular culture In '' The Simpsons '' cartoon series, Homer Simpson is an employee of the Springfield Nuclear Power Plant . See also
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