The net work output and the thermal efficiency for the Carnot and the simple ideal Rankine cycles with steam as the working fluid are to be calculated and compared. Steam enters the turbine in both cases at 10 MPa as a saturated vapor, and the condenser pressure is 50 kPa. In the Rankine cycle, the condenser exit state is saturated liquid and, in the Carnot cycle, the boiler inlet state is saturated liquid. The net work output and the thermal efficiency for the Carnot and the simple ideal Rankine cycles with steam as the working fluid are to be calculated and compared. Use steam tables. The net work output in the simple ideal Rankinė cycle is The thermal efficiency of the simple ideal Rankine cycle is The net work output in the Carnot cycle is kJ/kg. The thermal efficiency of the Carnot cycle is %. kJ/kg. 1%.
The net work output and the thermal efficiency for the Carnot and the simple ideal Rankine cycles with steam as the working fluid are to be calculated and compared. Steam enters the turbine in both cases at 10 MPa as a saturated vapor, and the condenser pressure is 50 kPa. In the Rankine cycle, the condenser exit state is saturated liquid and, in the Carnot cycle, the boiler inlet state is saturated liquid. The net work output and the thermal efficiency for the Carnot and the simple ideal Rankine cycles with steam as the working fluid are to be calculated and compared. Use steam tables. The net work output in the simple ideal Rankinė cycle is The thermal efficiency of the simple ideal Rankine cycle is The net work output in the Carnot cycle is kJ/kg. The thermal efficiency of the Carnot cycle is %. kJ/kg. 1%.
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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The net work output and the thermal efficiency for the Carnot and the simple ideal Rankine cycles with steam as the
working fluid are to be calculated and compared. Steam enters the turbine in both cases at 10 MPa as a saturated
vapor, and the condenser pressure is 50 kPa. In the Rankine cycle, the condenser exit state is saturated liquid and, in
the Carnot cycle, the boiler inlet state is saturated liquid.
The net work output and the thermal efficiency for the Carnot and the simple ideal Rankine cycles with steam as the working fluid
are to be calculated and compared. Use steam tables.
The net work output in the simple ideal Rankinė cycle is kJ/kg.
The thermal efficiency of the simple ideal Rankine cycle is
The net work output in the Carnot cycle is
kJ/kg.
The thermal efficiency of the Carnot cycle is
1%.
1%.
S](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8a2e9018-6ef7-49be-821f-0ff43f4b9b5d%2F5174f3a4-e0f0-462a-b680-19db4589fb43%2Fhrstseg_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Required information
The net work output and the thermal efficiency for the Carnot and the simple ideal Rankine cycles with steam as the
working fluid are to be calculated and compared. Steam enters the turbine in both cases at 10 MPa as a saturated
vapor, and the condenser pressure is 50 kPa. In the Rankine cycle, the condenser exit state is saturated liquid and, in
the Carnot cycle, the boiler inlet state is saturated liquid.
The net work output and the thermal efficiency for the Carnot and the simple ideal Rankine cycles with steam as the working fluid
are to be calculated and compared. Use steam tables.
The net work output in the simple ideal Rankinė cycle is kJ/kg.
The thermal efficiency of the simple ideal Rankine cycle is
The net work output in the Carnot cycle is
kJ/kg.
The thermal efficiency of the Carnot cycle is
1%.
1%.
S
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Step 1: Determining the given variables
VIEWStep 2: Calculating enthalpy at the turbine inlet in case of Rankine cycle
VIEWStep 3: Calculating enthalpy at state 2, 3 and 4 in case of Rankine cycle
VIEWStep 4: Calculating the net work output and thermal efficiency of Rankine cycle
VIEWStep 5: Calculating the enthalpy at various state in case of Carnot cycle
VIEWStep 6: Calculating the net work output and thermal efficiency of Carnot cycle
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