Browse Items (11 total)
- Tags: W501D5
Westinghouse: A Proud History of Combustion Turbine Experience
Tags: blast-furnace gas; Bunker C; Canadian Utilities; coal gas; coal gasification; combustion turbines; cooled blades; cooled vanes; Creole Petroleum Corporation; DAEE Brazil; Departamento de Águas e Energia Elétrica; Detroit Edison Company; Dow Chemical Company; electric power generation; Fiat Automobiles; Florida Power and Light Company; IGCC; integrated gasification combined cycle; locomotives; Mississippi River Fuel Corporation; Mitsubishi Heavy Industries; natural gas; oil field compressors; PACE; peaking units; Power at Combined Efficiency; power plants; railroads; residual fuel; residual oil; Salt Grass Combined-Cycle Plant; Saudi Arabian Oil Company; Saudi Aramco; trains; U.S. Steel; U.S. Steel Company; United States Steel Corporation; vanadium; W251; W251B12; W501; W501D5; W501F; West Texas Utilities; Westinghouse 251; Westinghouse 251B12; Westinghouse 501; Westinghouse 501D5; Westinghouse 501F; Westinghouse Electric Corporation
Westinghouse W-501D 100 MW Single Shaft Heavy Duty Combustion Turbine
Tags: A. J. Scalzo; Alafaya Trail; combined cycle installation; combustion; combustion turbines; combustors; compressor cylinders; CURVIC; ECONOPAC; EconPac; engines; G. S. Howard; gas turbines; hydrogen-cooled generators; International Power Generation; J. Morrash; orlando; P. C. Holden; PACE; rotor blades; rotors; The Quadrangle; W-301; W-501; W-501A; W-501AA; W-501B; W-501D; W501D5; Westinghouse Combustion Turbine Systems Division; Westinghouse Electric Corporation
Westinghouse 501D5 Gas Turbine
Westinghouse 501D5 EconoPac-Model Power Plant
Westinghouse 501D5 Combustor Designed for Future Synthetic Gas Use
Take a New Look at Westinghouse Combustion Turbines
Tags: Augie Scalzo; axial exhaust; Capitol Cogeneration; cold-end drive; Comanche Station; Combustion Turbine Engine and Design; combustion turbines; Dow Chemical Company; ECONOPAC; Edison's Cololwater Station; energy; Energy Digest; engineering; Enron Corporation; Generation Technology Systems Division; IGCC; integrated gasification combined cycle; Jarvis Cotton; jet engines; manufacturing; MHI; Mitsubishi Heavy Industries; Nevada Power's Clarke Station; Nuclear Services Integration Division; orlando; PACE; Power At Combined Efficiencies; power generation; Power Generation Service Division; power plants; Power Projects Development; Power Systems Business United; Power Systems Operations Division; repowering; rotors; Service Technology Division; W501B; W501D5; Westinghouse Electric Corporation
Evolution of Heavy-Duty Power Generation and Industrial Combustion Turbines in the United States
Tags: 191-9; 1973 Oil Crisis; 501F Advanced Combustion Turbine; 501F rotors; 701F; A. J. Scalzo; A286; Advanced Turbine Systems; airplanes; AISI 310; AISI 422; American Society of Mechanical Engineers; ASME; Atoms for Peace Program; ATS; Baldwin Company; blast furnace engines; BOT; burner outlet temperature; Chance Vought Corsair; Chicago Works; clean coal; cogeneration; cold war; compressor integral vanes; cooling systems; CURVIC; DCF; direct coal-fired; directionally solidified; Discalloy 24; DOE; Dow Chemical Company; DS; Dwight D. Eisenhower; Dwight David Eisenhower; ECONOPAC; ECY768; engines; Fiat Avio; Fuel Use Act; G. S. Howard; Gas Turbine Age; Gleason Works; Hastelloy X; Hayes International; Haynes Stellite 31; heat recovery; heavy-duty power generation; hybrid burners; IGCC; Ike Eisenhower; IN617l International Nickel Company; IN713L U500; industrial combustion turbines; integrated gasification combined cycle; International Gas Turbine and Aeroengine Congress and Exposition; J30; J34; jet fighters; Joule-Brayton cycle; LCF; leading edge groove; LEG; low cycle fatigue; M. Decorso; Marine Gas Cooled Reactors Program; McDonnell Douglas FH-1 Phantom; McDonnell F2H Banshee; McDonnell FH Phantom; MGCR; MHI; Mississippi River Fuel Company system; Mitsubishi Heavy Industries; Morgantown Energy Technology Center; NACA; NACA 65; Northeast Blackout; nuclear power plants; nuclear submarines; nuclear subs; Oil Embargo; orlando; packaged power plants; Patuxent Flight Test Center; PFB; PGBU; Pittsburgh and Lake Erie Railroad; planes; Power Generation Business Unit; pressurized fluidized bed; Public Regulatory Policies Act of 1978, PURPA; R. L. Bannister; railroads; Rankine cycle; RIT; rotor inlet temperature; SC; Sermetech International Incorporated; Sermetel 5380DP; simple cycle package; single crystal; single row 1 vanes; Special Metals Companies; steam turbines; TG501; thermodynamics; turbine discs; U.S. Department of Energy; U.S. Naval Test Laboratory; U.S. Navy; U.S. Steel Corporation; U520; Union Railroad; W101; W121; W122; W171; W191; W201; W201RE; W21; W251; W251 B12; W251A; W251AA; W251B; W251B10; W251B12; W251B8; W251BS; W301; W31; W352; W41; W501A; W501AA; W501B; W501D; W501D5; W52; W62; W72; W81; W82; W92; WE19A; WE19B; West Texas Utilities; West Texas Utilities San Angelo's Power Station; Westinghouse Electric Corporation; Westinghouse Research Laboratory; Wolverine; World War II; WWII; X-750; X45
Electroperú's Westinghouse 501D5 EconoPac Gas Turbines
Dow Chemical Company's Westinghouse 501D5 Gas Turbines
Capital Cogeneration's Westinghouse 501D5 Gas Turbines
150 MW Class 501F Design to Begin Full Load Factory Testing This Summer
Tags: 501F; air-cooled turbines; Auguie Scalzo; coal-fired plants; combined cycle; Combustion Turbine Operations; compressors; cooled combustors; CTO; dual-fuel combustors; ECY768L X45L U 520L Inco 738; engineering; factories; factory; gas turbines; HRSG; IGCC; low-NOx hybrid combustors; MF-111; MHI; Mitsubishi Heavy Industries; Moon Light; MTFIN; MW701D; NACA; packaged plants; power generation; Power Logic II control system; Power Projects Development; protective coatings; Robert Farmer; simple cycle; Takasago Works; testing; tilting-pad bearings; variable geometry guide vanes; W1501; W501D5; W65; Westinghouse Electric Corporation