500 kg/h of steam drives a turbine. The steam enters the turbine at 44 atm and 450 OC at a linear velocity of 60 m/s and leaves at a point 5 m below the turbine inlet at atmospheric pressure and a velocity of 360 m/s. The turbine delivers shaft work at a rate of 70 kW, and the heat loss from the turbine is estimated to be 104 kcal/h. Calculate the specific enthalpy change associated with process. 500 kgh 44 atm, 450C 60 m/s m 500 kgh 1 atm 360 m/s Q–10 kcalh W,-70 kW

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500 kg/h of steam drives a turbine. The steam enters the turbine at 44 atm and 450 OC at a linear velocity of 60 m/s and leaves at a point 5 m below the turbine inlet at atmospheric pressure and a velocity of 360 m/s. The turbine delivers shaft work at a rate of 70 kW, and the heat loss from the turbine is estimated to be 104 kcal/h. Calculate the specific enthalpy change associated with process. 500 kgh 44 atm, 450C 60 m/s m 500 kgh 1 atm 360 m/s Q--10 kcalh W,-70 kW

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