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Computer generated image of AP1000. The AP1000 is a nuclear power plant designed and sold by Westinghouse Electric Company.The plant is a pressurized water reactor with improved use of passive nuclear safety and many design features intended to lower its capital cost and improve its economics.
System 80 is a pressurized water reactor design by Combustion Engineering (which was subsequently bought by Asea Brown Boveri and eventually merged into the Westinghouse Electric Company). Three System 80 reactors were built at Palo Verde Nuclear Generating Station.
A pressurized water reactor (PWR) is a type of light-water nuclear reactor. PWRs constitute the large majority of the world's nuclear power plants (with notable exceptions being the UK, Japan, India and Canada). In a PWR, water is used both as a neutron moderator and as coolant fluid for the reactor core.
Earlier this year, U.S.-based nuclear equipment manufacturer Westinghouse Electric Co. signed an agreement with the Kozloduy plant for a proposed deployment of one or two AP1000 pressurized water ...
Reactor type: PWR: Reactor supplier: Westinghouse: Cooling source: Main Cooling Reservoir (7,000 acres (2,800 ha), up to 202,600 acre-feet (249,900,000 m 3) of cooling water storage, filled by pumping water from the Colorado River) Thermal capacity: 2 × 3853 MW th: Power generation; Units operational: 2 × 1280 MW: Make and model: WH 4-loop ...
Westinghouse's world headquarters are located in the Pittsburgh suburb of Cranberry Township, Pennsylvania. The company's main product is the AP1000, a modern pressurized water reactor (PWR) design with many passive safety features and modular construction intended to lower construction time and cost. Twelve AP1000 reactors are currently in ...
The plant, construction of which began in 1973, has two Westinghouse pressurized water reactor units: Unit 1, completed in 1996, and Unit 2, completed in 2015. Unit 1 has a winter net dependable generating capacity of 1,167 megawatts. Unit 2 has a capacity of 1,165 megawatts.
The McGuire units use the lake's water for cooling. This plant has two Westinghouse pressurized water reactors. It has a capability to produce 2,250 megawatts of net power, with a net generation of 17,514 GW·h in 2005. This represents 44% of the total nuclear power generation for the state of North Carolina. [2]