- Pr L Consider A Power Generation Unit That Runs On A Rankine Cycle The Steam Enter The Turbine At 3 0 Mpa And 350 Deg 1 (32.97 KiB) Viewed 16 times
Pr.l. Consider a power generation unit that runs on a Rankine cycle. The steam enter the turbine at 3.0 MPa and 350 deg
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Pr.l. Consider a power generation unit that runs on a Rankine cycle. The steam enter the turbine at 3.0 MPa and 350 deg
Pr.l. Consider a power generation unit that runs on a Rankine cycle. The steam enter the turbine at 3.0 MPa and 350 deg C, and leaves it at 10 kPa. Condensate water leaves the condenser and enters the pump at 10 kPA and 35 deg C. Assume that the turbine is 95 % efficient. (The pump has no inefficiencies.) Assuming no pressure losses in the condenser and boiler: (1) draw the T-s diagram for this Rankine cycle (show isobars and give temps), find the thermal and Carnot cycle efficiencies, and the mass flow rate (kg/sec) of water in the cycle if the net power output of the cycle is 150 MWatts. ()