3. For the gas system power illustrated in Figure 3 (with the air-standard analysis assumptions), calculate thermalefficiency, back work ratio, and Weycle-10P₁ = 100 kPaT₁ = 350 KOiaHeat exchangerHeat exchangerQoutT₁ - 1500 KTurbineWycle1T₁ - 1500 Kp= 1000 kPap= 100 kPaT₁ = 350 KFigure 3. Operating condition of a gas power system cycle (The P-V and T-S diagram)

Given :T1= 350 KT3= 1500 Kp1= 100 kPap2= 1000 kPaTo determine:The thermal efficiencyThe backwork…

3. For the gas system power illustrated in Figure 3 (with the air-standard analysis assumptions), calculate thermal efficiency, back work ratio, and Weycle -10 P₁ = 100 kPa T₁ = 350 K din Heat exchanger Heat exchanger dout T, 1500 K Turbine Wycle 1 T₁ - 1500 K p= 1000 kPa p= 100 kPa T₁ - 350 K Figure 3. Operating condition of a gas power system cycle (The P-V and T-S diagram)

3. For the gas system power illustrated in Figure 3 (with the air-standard analysis assumptions), calculate thermal efficiency, back work ratio, and Weycle -10 P₁ = 100 kPa T₁ = 350 K din Heat exchanger Heat exchanger dout T, 1500 K Turbine Wycle 1 T₁ - 1500 K p= 1000 kPa p= 100 kPa T₁ - 350 K Figure 3. Operating condition of a gas power system cycle (The P-V and T-S diagram)

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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Question

3. For the gas system power illustrated in Figure 3 (with the air-standard analysis assumptions), calculate thermal
efficiency, back work ratio, and Weycle
-10
P₁ = 100 kPa
T₁ = 350 K
Oia
Heat exchanger
Heat exchanger
Qout
T₁ - 1500 K
Turbine
Wycle
1
T₁ - 1500 K
p= 1000 kPa
p= 100 kPa
T₁ = 350 K
Figure 3. Operating condition of a gas power system cycle (The P-V and T-S diagram)

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