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A steam turbine inlet is at 1500kPa, and 500°C, and outlet is at 300kPa, and 280°C....
The high-pressure turbine in a steam power plant has an inlet state of 3 MPa, 500°C....
The high-pressure turbine in a steam power plant has an inlet state of 3 MPa, 500°C. A 20% of the inlet mass flow is extracted from the turbine at a location where the pressure is 1 MPa and the temperature is 350°C. The remaining flow continuous to expand in the turbine, exiting the turbine at 2 bar, 200°C. Determine the: (a) inlet and exit flow exergies per mass flow rate of the inlet flow, (b) isentropic efficiency of the turbine,...
Considering that a steam turbine has the following properties, what is the isentropic efficiency of the...
Considering that a steam turbine has the following properties, what is the isentropic efficiency of the turbine? Inlet Steam: 600 psig and 1472°F Turbine Properties: Generator Efficiency = 65% and Power Out = 40 kw Outlet Steam: 400 psig and 1000°F Now you have two of these turbines in series, what is the efficiency of the two together?
Question A.1 A schematic of a gas turbine combined cycle generating plant is shown in Figure...
Question A.1 A schematic of a gas turbine combined cycle generating plant is shown in Figure A1.1 on the next page. Exhaust gas from the gas turbine generator pass througha heat recovery steam generator (HRSG) which generates steam to drive a steam turbine generator. The following data is provided for the plant: Gas turbine 18.9:1 Pressure ratio Compressor air inlet temperature Turbine inlet temperature 15°C t 273 288 1350°C +273- 1623 588 kg/s T, T3 Exhaust gas mass flow Isentropic...
Steam enters an adiabatic turbine steadily at 7 MPa, 500 °C, and 45 m/s
Steam enters an adiabatic turbine steadily at 7 MPa, 500 °C, and 45 m/s, and leaves at 100 kPa and 75 m/s. If the power output of the turbine is 5 MW and the isentropic efficiency is 77 percent, determine: A. the mass flow rate of steam through the turbine, B. the temperature at the turbine exit, and C. the rate of entropy generation during this process.
Problem 2 The isentropic efficiency of a turbine is 90% when a steam at 500 °C 10 MPa , expands t...
Problem 2 The isentropic efficiency of a turbine is 90% when a steam at 500 °C 10 MPa , expands to 0.05 MPa saturated steam. The following conditions were calculated/estimated: P2s-30 KPa T- 90 °C T3-100 °C Are the above calculated/estimated conditions true? Calculate the true values. Problem 3.
Problem 2 The isentropic efficiency of a turbine is 90% when a steam at 500 °C 10 MPa , expands to 0.05 MPa saturated steam. The following conditions were calculated/estimated: P2s-30...
1. A combustion turbine possesses the following characteristics: Compressor 97 kPa and 30。C inlet conditions Pressure...
1. A combustion turbine possesses the following characteristics: Compressor 97 kPa and 30。C inlet conditions Pressure ratio: 5.5 Isentropic compression efficiency: 0.84 Combustor Outlet temperature: 1000 °C Pressure loss: 3 percent Fuel: natural gas Turbine Exit pressure: 100 kPa Isentropic expansion efficiency: 0.88 Generator Generator efficiency: 0.98 Determine the overall thermal efficiency, the heat rate, and the fuel-to-air ratio
A steam turbine operates with P1 = 5 MPa and T1 = 600 °C at the...
A steam turbine operates with P1 = 5 MPa and T1 = 600 °C at the
inlet, an exit pressure of P2 = 100 kPa, a mass flow rate of ?̇ =
100 kg/s, and an isentropic efficiency of η = 85%. Complete a
thermodynamic analysis of the turbine, using the appropriate data
for water, by finding: (A) The temperature at the exit, T2, (B) the
work produced by the turbine, ?̇ ?, and (C) the rate of entropy
production...
Steam with the mass flow rate of 0.75 kg/s enters an adiabatic turbine steadily at 19 MPa, 600°C and 150 m/s
Steam with the mass flow rate of 0.75 kg/s enters an adiabatic turbine steadily at 19 MPa, 600°C and 150 m/s, and leaves at 150 kPa and 350 m/s. The isentropic efficiency of the turbine is 85%. Neglect potential energy. (I) Determine the exit temperature of the steam, and its quality (if saturated mixture) (ii) Calculate the actual power output of the turbine, in kW (iii) Illustrate a T-s diagram with respect to saturation lines for the isentropic process by clearly indicating all pressure, temperature,...
Combustor Gas turbine :Compressor- Turbine Air inlet- 7 Heat-recovery steam generator Turbine Vap...
please solve the problem, it is thermo-design problem,
please do in details, thank you
Combustor Gas turbine :Compressor- Turbine Air inlet- 7 Heat-recovery steam generator Turbine Vapor cycle W) Pump Condenser Cooling water Figure 1: Combined gas turbine-vapor power plant Consider Figure 1 above. The following information is given a. p- 14.7 psia, T 540 °R b. P/p1 12.0 С. Т,-2500,"R d, P,-14.7 psia, Ts-700. "R (Rankine) e. P 1000. psia f. P 1.00 psia, x>0.85 or superheated The isentropic...
An existing steam turbine operating on a reheat Rankine cycle in which the first stage turbine...
An existing steam turbine operating on a reheat Rankine cycle in
which the first stage turbine has an inlet pressure of 12.5MPa and
inlet temperature of 550 degree celcius. The second stage has an
inlet temperature of 500 degree celcius. Assuming both turbines and
water pump run at 100% isentropic efficiency. The steam leaves the
condenser as saturated liquid at 15kPa.
Based on the set up above, the engineer decides to add an open
feedwater heater (FWH) to the reheat...
Question A.1 A schematic of a gas turbine combined cycle generating plant is shown in Figure A1.1 on the next page. Exhaust gas from the gas turbine generator pass througha heat recovery steam generator (HRSG) which generates steam to drive a steam turbine generator. The following data is provided for the plant: Gas turbine 18.9:1 Pressure ratio Compressor air inlet temperature Turbine inlet temperature 15°C t 273 288 1350°C +273- 1623 588 kg/s T, T3 Exhaust gas mass flow Isentropic...
Problem 2 The isentropic efficiency of a turbine is 90% when a steam at 500 °C 10 MPa , expands to 0.05 MPa saturated steam. The following conditions were calculated/estimated: P2s-30 KPa T- 90 °C T3-100 °C Are the above calculated/estimated conditions true? Calculate the true values. Problem 3.
Problem 2 The isentropic efficiency of a turbine is 90% when a steam at 500 °C 10 MPa , expands to 0.05 MPa saturated steam. The following conditions were calculated/estimated: P2s-30...
1. A combustion turbine possesses the following characteristics: Compressor 97 kPa and 30。C inlet conditions Pressure ratio: 5.5 Isentropic compression efficiency: 0.84 Combustor Outlet temperature: 1000 °C Pressure loss: 3 percent Fuel: natural gas Turbine Exit pressure: 100 kPa Isentropic expansion efficiency: 0.88 Generator Generator efficiency: 0.98 Determine the overall thermal efficiency, the heat rate, and the fuel-to-air ratio
A steam turbine operates with P1 = 5 MPa and T1 = 600 °C at the
inlet, an exit pressure of P2 = 100 kPa, a mass flow rate of ?̇ =
100 kg/s, and an isentropic efficiency of η = 85%. Complete a
thermodynamic analysis of the turbine, using the appropriate data
for water, by finding: (A) The temperature at the exit, T2, (B) the
work produced by the turbine, ?̇ ?, and (C) the rate of entropy
production...
please solve the problem, it is thermo-design problem,
please do in details, thank you
Combustor Gas turbine :Compressor- Turbine Air inlet- 7 Heat-recovery steam generator Turbine Vapor cycle W) Pump Condenser Cooling water Figure 1: Combined gas turbine-vapor power plant Consider Figure 1 above. The following information is given a. p- 14.7 psia, T 540 °R b. P/p1 12.0 С. Т,-2500,"R d, P,-14.7 psia, Ts-700. "R (Rankine) e. P 1000. psia f. P 1.00 psia, x>0.85 or superheated The isentropic...
An existing steam turbine operating on a reheat Rankine cycle in
which the first stage turbine has an inlet pressure of 12.5MPa and
inlet temperature of 550 degree celcius. The second stage has an
inlet temperature of 500 degree celcius. Assuming both turbines and
water pump run at 100% isentropic efficiency. The steam leaves the
condenser as saturated liquid at 15kPa.
Based on the set up above, the engineer decides to add an open
feedwater heater (FWH) to the reheat...
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