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Supplier: Siemens Energy Sector
Description: The SST-900 is a single-casing steam turbine with up to 250 MW power output, normally providing direct drive of a 3,000 or 3,600 rpm generator. The SST-900 steam turbine series is designed and manufactured to meet the specific demands of power generation in
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Supplier: Siemens Energy Sector
Description: The SST-500 GEO is a single-casing, double-flow condensing turbine for geothermal applications in the power range of up to 120 MW. The SST-500 GEO is a derivative of the SST-500 and SST-600 turbine family, optimized for the demanding conditions of geothermal steam cycles. It can
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Supplier: Siemens Energy Sector
Description: The SST-700 is a dual casing steam turbine with up to 175 MW power output. It is specially designed for power generation applications. In order to make the best use of large changes in volumetric flow from inlet to outlet, the SST-700 turbine steam expansion is divided
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Supplier: Siemens Energy Sector
Description: The SST-111 is a multistage steam turbine with an integrated gearbox and is designed for the output range from 3 to 12 MW. The multicasing design approach permits up to two controlled extractions, operation in various steam supply systems, as well as the possibility of including
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Supplier: ASME
Description: turbines classified as follow: (a) Straight condensing, straight noncondensing and regenerative turbines without initial and/or exhaust steam pressure control, including reheat turbines. (b) Straight condensing, straight noncondensing and regenerative
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Supplier: ASME Standards and Certification
Description: turbines classified as follow: (a) Straight condensing, straight noncondensing and regenerative turbines without initial and/or exhaust steam pressure control, including reheat turbines. (b) Straight condensing, straight noncondensing and regenerative
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Description: drive electric generators at constant speed without initial steam-pressure control, exhaust steam-pressure control, or either: (1) condensing or noncondensing turbines without initial steam-pressure control, exhaust steam-pressure control, including turbines
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Description: reheat, regenerative feedwater heaters, or both; (2) condensing or noncondensing turbines with initial and/or exhaust steam-pressure control, including turbines used with reheat, regenerative feedwater heaters, or both; (3) automatic extraction and/or induction and
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Systems Analyses of Advanced Brayton Cycles
The process scheme for the combined-cycle power block consists of a gas turbine supporting a reheat steam turbine .
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Challenges of Power Engineering and Environment
Fig.17 shows the combined-cycle power train applied with the 1,300ć /160MW class gas turbine and the advanced HILP single-cylinder 85MW class reheat steam turbine of SCSF-40”, with a total output of 245MW class as a single unit.
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HTGR BASE PROGRAM REPORT FOR THE PERIOD ENDING MAY 30, 1969.
Fig. 1.12~ Reheat steam turbine sizing study, P-j^^ = 818 psia, T^^ = 723°F, 0) = 284 lb/sec .
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GASIFICATION PLANT COST AND PERFORMANCE OPTIMIZATION
This information was then integrated with a new HRSG and reheat steam turbine .
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Comparative study and evaluation of advanced-cycle systems. Final report
Reheat Steam Turbine I I 1 .
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CONCEPTUAL DESIGN AND ECONOMICS OF A NOMINAL 500 MWe SECOND-GENERATION PFB COMBUSTION PLANT
The baseline plant operates with a subcritical pressure steam cycle and Figure 6.7.1 presents a mass and energy balance for the plant operating with a super critical pressure double reheat steam turbine (4000psig/1100ºF/1100ºF/1100ºF/2-1/2 in. Hg.); although the 4000 psig…
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Ultra-Supercritical Pressure CFB Boiler Conceptual Design Study
Utilizing a single reheat steam turbine with 4336 psig/1112°F/1148°F steam conditions, the plant is a modification of the double reheat steam cycle shown in [4-1] for a 400 MWe PC plant.
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Power Generation from Solid Fuels
Dual reheat Steam turbine efficiency Pressure drop, auxiliary power demand Utilisa- tion of waste heat .
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Power System Dynamics: Stability and Control
Figure 10.7 Variations in the valve position and output power of a single- reheat steam turbine due to: (a) momentary fast valving; (b) sustained fast valving. cGV , position of the main governor control valve; cIV , position of the intercept control valve.
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Advanced Turbine Systems (ATS) program conceptual design and product development
Two-flow reheat steam turbine .