Browse Items (123 total)
- Collection: Westinghouse Electric Collection
First Flight Test of the WE19B Engine Under Chance Vought Corsair FG-1
Evolution of the Central Station Steam Turbine in the United States
Tags: Allis Chalmers Company; American Electric Company; American Society of Mechanical Engineers; ASME; Auguste Camille Edmond Rateau; Auguste Rateau; Bullock Electric Company; C. G. Curtis; central station steam turbines; Charles Algernon Parsons; Duquesne Light Company; Eddystone 1; Edison Electric Light Company; Edison General Electric Company; Edison Lamp Company; Edison Machine Works; Electric Power Research Institute; engineering; EPRI; external moisture removal; Gaulard and Gibbs Transformers; General Electric Company; George J. Silvestri, Jr.; George Westinghouse; Gustaf de Laval; Hartford Electric Company; Karl Gustaf Patrik de Laval; moisture separation; multiple reheat; nuclear cycle; orlando; Philadelphia Electric Company; Public Service Electric Company; Rankine cycle; regenerative cycle; reheat cycle; Ronald L. Bannister; Sprague Electric Railway and Motor Company; steam reheat cycle; Thomas Alva Edison; Thomas Edison; Thomson-Houston Electric Company; Union Switch and Signal Company; vortex balding; Westinghouse Electric and Manufacturing Company; Westinghouse Electric Company; Westinghouse Electric Corporation; Westinghouse Machine Company
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
Electric Utility Supplies On-Site Power
Tags: air compressors; Alvin H. Johnson Company; atomizing air compressors; auxiliary gear; building motor control panel; de-inking; dual-energy source; electric utility; electric utility center; electrical energy; energy; energy plants; engineering; Eric Smith; excited; forced-draft fans; fuel gas control; G. E. Baker; gage cabinets; Garden State Paper Company; gas turbines; gas-turbine energy plants; generator control panel; generator cooling-air exhaust; generator cooling-air inlets; George E. Baker; GSP; heat recovery systems; inlet silences; Jack B. Moore; John H. Rich; motor control center; newspapers; newsprint; oil filters; oil-to-air coolers; paper; Pomona, California; power; power plants; preecoolers; pressure switch; pressure switches; printing; radiator lube-oil coolers; receivers; reduction gear; reductions gears; SCE; Southern California Edison Company; starting engineers; steam plants; switchgear; thermal energy; transformers; turbine air inlets; turbine exhaust; utility; waste-heat boilers; Westinghouse Electric Corporation; Westinghouse W-191; William C. Drewry
El Paso Electric Company Newman Station
Early Westinghouse Gas Turbine Power Generating Unit
Tags: combined power and heat; CPH; Dow Chemical Company; engineering; evaporative coolers; exhaust heat recovery; fan houses; Freeport, Texas; gas turbine cogeneration; gas turbine inlets; Gas Turbine Power Generating Unit; gas turbines; generators; GT; heat recovery; power generation; steam turbine generators; superchargers; supercharging; Westinghouse Electric Corporation
Dual-Fuel Nozzle for Synthetic Gas and Natural Gas
Dow Chemical Company's Westinghouse 501D5 Gas Turbines
Commemorating the Opening of a Museum Honor George Westinghouse
Tags: AC; air brakes; Al Schmid; alternating currents; alternating-current system; American Standard, Inc.; APICS; Berkshire House; Bill Stanley; boats; Chicago Columbian Exposition; Chicago World's Fair; East Pittsburgh Works; Education and Research Foundation of the American Production and Inventory Control Society; electric power industry; electricity; engineering; George Melville; George W. Melville; George Wallace Melville; George Westinghouse and Company; George Westinghouse Museum; George Westinghouse, Jr.; Great Barrington, Massachusetts; Hartford, Connecticut; inventions; inventors; John Dixon Gibbs; John H. McAlpine; laboratories; laboratory; labs; Lucien Gaulard; main-line locomotives; marine turbines; museums; naval vessels; Neptune; Niagara Falls; Nikola Tesla; Pan Handle Route; Panhandle Route; Pittsburgh Packing Company; Pittsburgh, Cincinnati, Chicago and St. Louis Railroad; Pittsburgh, Pennsylvania; polyphase systems; propellers; railroad electrification; railroad switching; railroads; railway signaling; railways; Reginald Belfield; rotary steam engines; Schenectady Agricultural Works; secondary generators; ships; single-phase alternative currents; steam turbines; steamboats; steamers; steamships; Stuart and Gibson; The Castle; trains; transformers; transportation; U.S. Navy; Westinghouse Air Brake; Westinghouse Air Brake Company General Office Building; Westinghouse Electric and Manufacturing Company; Westinghouse Electric Corporation; William Stanley, Jr.; Wilmerding, Pennsylvania; World's Columbian Exposition; World's Fair: Columbian Exposition
Comisión Federal de Electricidad's Westinghouse 251 EconoPac Gas Turbines
Combustion Turbine Repowering of Reheat Steam Power Plants
Combustion Turbine Cogeneration
Tags: AFB; atmospheric fluid bed; Availability Assurance Engineering; Benjamin Franklin; bubbling bed system; circulating bed system; cogeneration; Combustion Turbine Systems Division; combustion turbines; combustors; compressors; Configuration Visibility system; electrical energy; electricity; energy; engines; gasification; George Westinghouse, Jr.; heat recovery steam generators; HRSG; industrial electrification; Mississippi River Fuel Corporation; power plants; Special Westinghouse Assistance Team; SWAT; thermal energy; Turbine Generator System; W21; W251B; W501; W501D; Westinghouse Canada, Inc.; Westinghouse Electric Corporation
Capital Cogeneration's Westinghouse 501D5 Gas Turbines
Building Block Applications: A Guide to Turbine Element Selection
Bellingham Energy Center
Baltimore Gas and Electric Company's Westinghouse 501AA EconoPac Gas Turbines
Alligator at the Hines Energy Complex
96MW-Power Barge
501G Design Features
501F Designed for Growth
48MW-Power Barge
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