Combined Wet Steam Boiler And 50 Kw Tubine
HOT
Capacity:1-20t/h
Rated thermal efficiency: 100-104%
Fixed working pressure: ≤1.6MPa
Applicable fuel:natural gas etc.
HOT
Capacity:0.7-14MW
Rated thermal efficiency:96-98%
Fixed working pressure:≤1.25MPa
Applicable fuel:Natural gas, light oil, etc.
HOT
Capacity:0.7-2.8Mw
Rated thermal efficiency: 97.2-106%
Fixed working pressure:0.1MPa
Applicable fuel:Natural gas, etc.
HOT
Capacity:2.8-7.0Mw
Rated thermal efficiency:≥105.5%
Fixed working pressure:-0.02MPa
Applicable fuel:Natural gas, etc.
HOT
Capacity:99Kw
Rated thermal efficiency:97.2-104.4%
Fixed working pressure:1.0MPa
Applicable fuel:Natural gas, etc.
HOT
Capacity:0.5-4.0 t/h
Rated thermal efficiency:98%
Fixed working pressure:≤1.25MPa
Applicable fuel:electric energy
boilers process fuel kw steam turbine lp steam overall eff ~ 75% lat ht of exhaust stm is used in the process. the ultimate combined-cycle cogen scheme process air gas exhaust to atmos gas turbine hrsg kw hp steam kw lp steam 700of to 50 psig)Get Price
11.4 A steam power plant operating in an ideal Rankine cycle has a high pressure of 5 MPa and a low pressure of 15 kPa. The turbine exhaust state should have a quality of at least 95% and the turbine power generated should be 7.5 MW. Find the necessary boiler exit temperature and the total mass flow rate. C.V. Turbine w T = h 3 - h 4; s 4 = s 3Get Price
Dec 22, 2021 · Steam Turbine Steam Consumption - [email protected] [50] - Wednesday, November 24, 2021 105 Views. HRSG Reheater Outlet Header Low Steam Flow View All - HRSG [2493] - Wednesday, November 3, 2021 170 Views. HRSG Reheater Outlet Header Low Steam Flow - Murphy [21] - Thursday, November 4, 2021 143 Views.Get Price
Toshiba 50 Hz-250 MVA Steam Turbine Generator. Liming 0183; 3 8019 A 50 Hz 3000 rpm Freight Total weight: ~2,800 Freight ton Total items: 74 Heavy Lifts: Condenser Top Cover: 2 x 15 ton Condenser: 2 x 85 ton Turbine: 268 ton Generator: 277 ton Weight Total weight:~2,800 Freight ton Total items: 74 with Design Points (A-F): Inlet HP steam, 104 bar: (A) 60 Kgs (B) 170 Kgs …Get Price
Dec 28, 2016 · Gas Turbine. Boiler. Gas Turbine Steam Turbine. CC Controls. SCR. Deaerator. 2nd Generator Deaerator. Cooling Tower. Cheng cycle Combined cycle. 5 GAS TURBINE WORLD: March – April 2013 Get Price
STEAM BOILERS Types: Fuel: Capacity: low and high temperature hot water boilers, flue gas, box and water tube boilers biomass/ solid fuels up to 50 000 kW Pressure: 4 to 43 bar(g), design dependent Types: steam boilers flue gas and box tube boilers Fuel: biomass/ solid fuels Steam rating: up to 68 000 kg/h steam Pressure: 4 to 43 bar(g),Get Price
STEAM PARAMETERS: Steam Flow Steam Pressure Steam Temperature: 2,000 - 350,000 Lbs/hr Up to 1500 PSIG Dry Saturated or Superheated: POWER: Co-gen or Power generation: 50 KW to 20,000 KW: FUELS: Fossil Fuels: Natural Gas, LPG, LNG, H2 Low BTU gases Fuel Oil No.2 - No.6 Coal : Renewable Fuels: Wood Rice Husk Bagasse Other Bio-mass Fuels Bio-gas Get Price
May 22, 2019 · Steam Turbine. In general, a steam turbine is a rotary heat engine that converts thermal energy contained in the steam to mechanical energy or to electrical energy.In its simplest form, a steam turbine consist of a boiler (steam generator), turbine, condenser, feed pump and a variety of auxiliary devices. Unlike with reciprocating engines, for instance, compression, …Get Price
Oct 01, 2021 · Fig. 2 shows a component diagram of the WHRS, which consists of the main engine, a turbocharger, a power turbine, a steam boiler with an associated dual-pressure steam turbine, condensers, pumps, and an ORC expander. Download : Download high-res image (431KB) Download : Download full-size image; Fig. 2. Structure diagram of the WHRS.Get Price
The steam is expanded in a turbine and then condensed at 0.05 bar. The process heat is provided by the steam bled from the turbine at an appropriate pressure, and the st eam condense d in the process heat exchanger is returned to the feed water line. Calculate the amount of steam that has to be raised in the boiler. Assume an overall isentropicGet Price
The vapor exits the boiler in state 1 and the cycle is repeated. Example 7.1-12. ----- Steam enters the turbine in a power plant at 600oC and 10 MPa and is condensed at a pressure of 0.1 MPa. Assume the plant can be treated as an ideal Rankine cycle. Determine the power produced per kg of steam and the efficiency of the cycle.Get Price
Mar 17, 2015 · Steam, Boiler, and Blowdown Pressure are the same. Combustion Efficiency is the % of fuel energy that is directly added to the feedwater and not otherwise lost or used. Blowdown Rate is the % of incoming feedwater mass flow rate that leaves the boiler as a saturated liquid at boiler pressure.Get Price
Power range from 50 kW to 50 MW material to fuel a boiler and produce low-cost steam. In these situations, an Elliott STG can pay for itself in a few Elliott steam turbines are driving generators, pumps, compressors, fans, blowers, and other equipment across a wide range of applications and power requirements. TURBINE DESIGN AVAILABLE .Get Price
Liming·In combined cycle, approximately 12 MW (GT26) or 10 MW (GT24) is indirectly produced by the steam turbine through the heat released in the gas turbine cooling air coolers into the water steam cycle. generation (distributed power) applications and can be as small as 50 kW (kilowatts). Work continues on developing microturbinesGet Price
500 kW steam turbine utiliz-ing a natural gas fired boiler will have estimated NOx emissions in the range of 26-81 ppm (at 3% oxygen). A larger 15,000 kW CHP steam turbine integrated with a natural gas boiler will have estimated NOx emis-sions in the range of 81-226 ppm (at 3% oxygen). This 15,000 kW steam turbine, if integrated with a coal firedGet Price
pressure steam (800 psig, 700°F) in a biomass/wood-fired boiler, expanding this steam through a back pressure steam turbine to generate power, and using the low pressure steam (150 psig, 400°F) exhausting from the turbine for process needs (Figure 1). Both boiler/steam turbine CHP options are technically identical—a 110,000 lb/hr stoker Get Price
The boiler puts 25 kW of heat into the cycle and produces wet steam at 300oC. The condenser produces wet steam at 50oC. Calculate the following. i. The efficiency of the plant. (43.6%) ii. The net power output. (10.9 kW) iii. The heat removed by the condenser. (14 kW) 2. A steam power plant is based on the Carnot cycle. The boiler is supplied withGet Price
The steam is expanded in a turbine and then condensed at 0.05 bar. The process heat is provided by the steam bled from the turbine at an appropriate pressure, and the st eam condense d in the process heat exchanger is returned to the feed water line. Calculate the amount of steam that has to be raised in the boiler. Assume an overall isentropicGet Price
Gas turbine station. Thornhill combined cycle gas turbine (CCGT) power station was commissioned in 1998. It is owned and operated by E.ON UK Cogeneration Limited. It comprises a single natural gas fired gas turbine with an associated heat recovery boiler, a single steam turbine, an electrical generator and a steam condensing and cooling system.Get Price
When specifying a new boiler, consider a high-pressure boiler with a backpressure steam turbine-generator placed between the boiler and the steam distribution network. A turbine-generator can often produce enough electricity to justify the capital cost of purchasing the higher-pressure boiler and the turbine-generator.Get Price
Steam is produced in the plant's boilers and heat recovery steam generators. The plant uses a variety of fuels including coal, natural gas, chipped tires, fuel oil and biomass to make steam. The power plant has four steam turbine generators ranging in size from 6 MW to 19 MW, and two gas turbine generators rated at 13 MW which are capable of Get Price
The steam turbine, similar to the prime mover in . Figure 2, is connected to an electric generator. The steam then exits the turbine at a lower pressure and is used for thermal needs at the site. Boiler/steam turbines are typically used when solid fuels (e.g., coal and biomass) or process waste streams are available for CHP applications. Figure Get Price
(a) Mass balance for the boiler: mm m 23 steam Energy balance for the boiler: Qmhh boiler steam 32 Mass flow rate of steam through the boiler: 3 32 kJ 420 10 s kJ 3675 46.3 kg boiler steam Q m hh kg 115.7 steam s m (b) Mass balance for the turbine: mm m 34 steam Energy balance for the actual turbine: 34Get Price
(a) Mass balance for the boiler: mm m 23 steam Energy balance for the boiler: Qmhh boiler steam 32 Mass flow rate of steam through the boiler: 3 32 kJ 420 10 s kJ 3675 46.3 kg boiler steam Q m hh kg 115.7 steam s m (b) Mass balance for the turbine: mm m 34 steam Energy balance for the actual turbine: 34Get Price
A CHP plant consists essentially of an electrical generator combined with equipment for recovering and using the heat produced by that generator. The generator may be a prime mover such as a gas turbine or a reciprocating engine. Alternatively, it may consist of a steam turbine generating power from high- pressure steam produced in a boiler.Get Price
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