1) Steam enters turbine steadily 6 MPa and 600 C, and leaving at 40 kpa as saturated vapor. The steam flow rate is 40000 kg/h . if the power generated by the turbine is 8.2 MW and the surrounding temperature where the steam turbine is located is 25 C. Determine the actual temperature at the turbine exit.
2) Steam enters turbine steadily 6 MPa and 600 C, and leaving at 70 kpa as saturated vapor. The steam flow rate is 40000 kg/h . if the power generated by the turbine is 8.2 MW and the surrounding temperature where the steam turbine is located is 25 C. Determine the heat transfers out of the turbine.
3) Steam enters turbine steadily 6 MPa and 600 C, and leaving at 30 kpa as saturated vapor. The steam flow rate is 40000 kg/h . if the power generated by the turbine is 8.2 MW and the surrounding temperature where the steam turbine is located is 25 C. Determine the quality at the outlet if the turbine is isentropic
4) Steam enters turbine steadily 6 MPa and 600 C, and leaving at 70 kpa as saturated vapor. The steam flow rate is 40000 kg/h . if the power generated by the turbine is 8.2 MW and the surrounding temperature where the steam turbine is located is 25 C. Determine if the turbine losses 2871 kW by heat, determine the rate of entropy generation during this process
1) Steam enters turbine steadily 6 MPa and 600 C, and leaving at 40 kpa as saturated vapor. The steam flow rate is 40000
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1) Steam enters turbine steadily 6 MPa and 600 C, and leaving at 40 kpa as saturated vapor. The steam flow rate is 40000
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