1. In a Rankine Cycle, dry saturated steam enters the turbine at 10 bar and is expanded isentropic ally to condenser pressure of 0.2 bar. Find a. The condition of the exhaust steam from the turbine. b. If the steam flow rate is 10 000 kg/hr, find the net power output of the cycle. 2. In a Rankine Cycle problem#1, if the boiler pressure is increased to 50 bar , find the improvement in net work output and the cycle efficiency. Assume that dry saturated steam enters the turbine and that the expansion is isentropic. 3. In a Rankine Cycle problem#2, if the isentropic efficiencies of the turbine and the pump are 80% and 85% respectively, find the thermal efficiency and the net power output. Find also the condition of the exhaust steam from the turbine.

1. In a Rankine Cycle, dry saturated steam enters the turbine at 10 bar and is expanded isentropic ally to condenser pressure of 0.2 bar. Find a. The condition of the exhaust steam from the turbine. b. If the steam flow rate is 10 000 kg/hr, find the net power output of the cycle. 2. In a Rankine Cycle problem#1, if the boiler pressure is increased to 50 bar , find the improvement in net work output and the cycle efficiency. Assume that dry saturated steam enters the turbine and that the expansion is isentropic. 3. In a Rankine Cycle problem#2, if the isentropic efficiencies of the turbine and the pump are 80% and 85% respectively, find the thermal efficiency and the net power output. Find also the condition of the exhaust steam from the turbine.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Note : similar problem is already solved on bartleby.You can take help from there. Assume ideal and the inlet of pump is saturated liquid.
solve in peaper