2. In Problem Set 3, Problem 2, we expanded superheated steam across a steady flow adiabatic turbine from 1000 kPa, 500°C to 100 kPa, 300°C. Assuming the turbine is reversible, and that the discharge is still at 100 kPa, find the outlet condition (T if superheated, x if a saturated mixture) and the w (kJ/kg). Then find the adiabatic efficiency of the original turbine from Problem Set 3. P

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Problem Set 3.
2. A steady flow, adiabatic (q=0) turbine accepts steam at 1000 kPa, 500°C and discharges the
steam at 100 kPa, 300°C. Assuming the CV is on the turbine body, find the work produced
(kJ/kg).
Inlet=1000 kP
Turbine
Outlet-100 kPa
Shaft Work
2. In Problem Set 3, Problem 2, we expanded superheated steam across a steady flow
adiabatic turbine from 1000 kPa, 500°C to 100 kPa, 300°C. Assuming the turbine is
reversible, and that the discharge is still at 100 kPa, find the outlet condition (T if
superheated, x if a saturated mixture) and the w (kJ/kg). Then find the adiabatic efficiency of
the original turbine from Problem Set 3.
P
please answer this
Transcribed Image Text:Problem Set 3. 2. A steady flow, adiabatic (q=0) turbine accepts steam at 1000 kPa, 500°C and discharges the steam at 100 kPa, 300°C. Assuming the CV is on the turbine body, find the work produced (kJ/kg). Inlet=1000 kP Turbine Outlet-100 kPa Shaft Work 2. In Problem Set 3, Problem 2, we expanded superheated steam across a steady flow adiabatic turbine from 1000 kPa, 500°C to 100 kPa, 300°C. Assuming the turbine is reversible, and that the discharge is still at 100 kPa, find the outlet condition (T if superheated, x if a saturated mixture) and the w (kJ/kg). Then find the adiabatic efficiency of the original turbine from Problem Set 3. P please answer this
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