Browse Items (123 total)

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Nine Westinghouse 501D (W501D) gas turbines, rated at 95.5MW, as the Shedgum Gas Plant in Al Ahsa, Saudi Arabia. These W501Ds were installed from 1978 to 1981. The Saudi market for large 60Hz gas turbines was key to Westinghouse business during…

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Capital Cogeneration's 450MW Westinghouse 501D5 (W501D5) gas turbines in Pasadena, Texas. This power plant was built by H. B. Zachry Company from 1983 to 1984 as is considered the first Westinghouse PURPA plant (named in reference to the Public…

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Dow Chemical Company's Westinghouse 501D5 (W501D5) gas turbines in Plaquemine, Louisiana. In 1987, two W501D5 gas turbines at this plant operated on synthetic gas from coal as part of the largest integrated gasification combined-cycle plant in the…

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An artist’s concept of new headquarters for Westinghouse Electric's Combustion Turbine Systems Division (CTSD) in Concordville, Pennsylvania. CTSD was one of the divisions relocated to Orlando, Florida, in 1987.Originally called the Westinghouse…

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The headquarters for Westinghouse Electric's Combustion Turbine Systems Division (CTSD) in Concordville, Pennsylvania. The world-class development laboratory at left background featured rigs for component testing at engine operating conditions,…

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A mug for Westinghouse Electric's Combustion Turbine Operations (CTO) mug, which was given to each employee who transferred from the CTO's location in Concordville, Pennsylvania, to Orlando, Florida, where the division was being relocated. CTO was…

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The Bellingham Energy Center in Bellingham, Massachusetts. Built in 1991, the facility is now owned and operated by NextEra Energy. A slip stream of exhaust gas is exported to a carbon dioxide-recovery unit to achieve QF status, as required by the…

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The 150MW-class (introductory rating) Westinghouse 501F (W501F) combustion turbine, which was developed from 1987 to 1989 as a joint engineering program between Westinghouse Electric and Mitsubishi Heavy Industries. The W501F evolved in the tradition…

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The first advertisement for the Westinghouse 501F (W501F) combustion turbine in June of 1988. The 150MW-class (introductory rating) W501F was developed from 1987 to 1989 as a joint engineering program between Westinghouse Electric and Mitsubishi…

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A brochure advertising the 150MW-class (introductory rating) Westinghouse 501F (W501F) combustion turbine, which was developed from 1987 to 1989 as a joint engineering program between Westinghouse Electric and Mitsubishi Heavy Industries. The W501F…

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The first Westinghouse 501F (W501F) engine being readied for shipment from Pensacola, Florida, to Ulsan, South Korea, in October of 1995. The W501F featured a new Dry Low mono-nitrogen oxides combustion system. Prior to this milestone, the W501F was…

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The 250MW-class Westinghouse 501G (W501G) gas turbine was introduced in 1994 as the largest and most efficient (38.5% LHV) 60Hz gas turbine in the world. The W501G also had an introductory combined-cycle efficiency of 58 percent.Originally called the…

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The first Westinghouse 501G (W501G) gas turbine being shipped from Hamilton Works in Hamilton, Canada, around October of 1998. This photograph was taken just after Siemens acquired the Westinghouse Electric Corporation's Power Generation Business…

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A chart showing 45 years of the gas turbine market in the United States. The chart begins with the Great Northeast Blackout of 1965, which accelerated the growth of electric utility market for gas turbines in the United States. Later events, most…

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A seasonal card from the Marketing Department of Westinghouse Electric's Small Steam and Gas Turbine Division (SSGT). Ted Anthony was Marketing Manager for the department and Don Jones was the Sales Manager for the United States.Originally called the…

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The synthetic fuel supply at Westinghouse Electric's gas turbine laboratory in Lester, Pennsylvania, in 1971. In 1970, Westinghouse obtained a contract under the Environmental Protection Agency (EPA) and, later, the U.S. Department of Energy (DOE),…

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A synthetic gas and standard fuel nozzle for the Westinghouse 501B (W501B) gas turbine. The newer low-BTU gas nozzle, shown on the left, is substantially different from the older nozzle, shown on the right. The low-heating value fuel test gas had…

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The Westinghouse 501D5 (W501D5) combustor, designed for future synthetic gas use. When the new W501D5 was introduced in 1980, the combustor basket design showed evidence of what was learned under the U.S. Department of Energy's (DOE) test program.…

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Westinghouse Electric's synthetic gas Process Development Unit (PDU) that was built and operated at Waltz Mill in Madison, Pennsylvania, beginning in 1972. The U.S. government program under which Westinghouse performed low-BTU gas testing was aimed…

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A conceptual design of an integrated gasification combined cycle (IGCC) power plant, which was created to show how a Westinghouse Power at Combined Efficiency (PACE) combined-cycle plant would be co-located with the Westinghouse Gasification System.…

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A dual-fuel nozzle for conversion of a 15MW Westinghouse 191 (W191) gas turbine to burn low-BTU coal-derived synthetic gas for a proof-of-concept demonstration of a gasifier at Dow Chemical Company's facility in Plaquemine, Louisiana. Dow claimed…

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President Jimmy Carter (b. 1924) giving one of his fireside chats on energy. The message was usually focused on energy conservation. President Carter was elected to office several years after the 1973 Oil Embargo, which devastated the gas turbine…
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