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The first batch of generators installed in Station B were massive Westinghouse alternators. They were the largest alternators built at the time and Westinghouse claimed they probably would not last 10 years. [6] In 1911 several more Westinghouse alternators were added as well as a huge Allis-Chalmers generator 3 times the size of the first. A ...
Eugene C. Whitney (26 August 1913 – 22 March 1998 [1]) was a celebrated power engineer who designed hydroelectric turbines and generators at Westinghouse Electric Company. The pinnacle of his career was the machinery for the expansion of the Grand Coulee Dam to add the #3 Powerhouse in 1966–74.
Steam turbine generator: The first commercial Westinghouse steam turbine-driven generator, a 1,500 kW unit, began operation at Hartford Electric Light Co. in 1901. The machine, nicknamed Mary-Ann, was the first steam turbine generator to be installed by an electric utility to generate electricity in the US.
The company was subcontracted to build ten 5,000 horsepower (3,700 kW) 25 Hz AC generators at this plant. [36] Westinghouse's Niagara Power Station No. 1, as it was then called, remained in operation in the Niagara transformer house until the plant closed in 1961. [37]
It became operational in 1891 and was built by Westinghouse Electric around two of their large alternators. One was set up in the valley as a generator and driven by water. It was connected by a 2.6-mile (4.2 km) transmission line to the second alternator used as a motor up at the Gold King Mine to drive the mining operation.
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Westinghouse Electric Company LLC is an American nuclear power company formed in 1999 from the nuclear power division of the original Westinghouse Electric Corporation. [3] It offers nuclear products and services to utilities internationally, including nuclear fuel , service and maintenance, instrumentation, control and design of nuclear power ...
Therefore, leakage from the terminal determines the maximum voltage attainable. In the Van de Graaff generator, the belt allows the transport of charge into the interior of a large hollow spherical electrode. This is the ideal shape to minimize leakage and corona discharge, so the Van de Graaff generator can produce the greatest voltage.