To understand the mathematical expression for a thermodynamic cycle you must calculate the index of compression in polytrophic processes (M1) where a fluid at 0.7 bar occupying 0.09m³ is compressed revels to a pressure of 3.5 bar according to a law PV: = constant. The fluid is then heated reversibly at the constant volume until the pressure is 4 bar, the specific volume is then 0.5 m³/kg. A reversible expansion according to a law PV1.3 = C restores the fluid to its initial state. Boundary Qin Boiler Turbine Qon Condenser Feed pump W Boundary Figure 1.2
To understand the mathematical expression for a thermodynamic cycle you must calculate the index of compression in polytrophic processes (M1) where a fluid at 0.7 bar occupying 0.09m³ is compressed revels to a pressure of 3.5 bar according to a law PV: = constant. The fluid is then heated reversibly at the constant volume until the pressure is 4 bar, the specific volume is then 0.5 m³/kg. A reversible expansion according to a law PV1.3 = C restores the fluid to its initial state. Boundary Qin Boiler Turbine Qon Condenser Feed pump W Boundary Figure 1.2
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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Hi please show calculations or diagrams if required thank you
Transcribed Image Text:To understand the mathematical expression for a thermodynamic cycle you must calculate the index of compression in polytrophic
processes (M1) where a fluid at 0.7 bar occupying 0.09m3 is compressed revels to a pressure of 3.5 bar according to a law PVa =
constant. The fluid is then heated reversibly at the constant volume until the pressure is 4 bar, the specific volume is then 0.5 m³/kg. A
reversible expansion according to a law PV1.3 = C restores the fluid to its initial state.
Boundary
Qin
W
Boiler
Turbine
Qout
Condenser
Feed
pump
Win
Boundary
Figure 1.2
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