a) Explanation Given: The initial pressure of air ( P 1 ) is 95 kPa . The initial temperature of air ( T 1 ) is 27 ° C . The final temperature of air ( T 2 ) is 277 ° C . The final pressure of air ( P 2 ) is 600 kPa. Calculation: Refer the Table A-17 “Ideal-gas properties of air”, obtain the below properties at corresponding to temperature 300 K . h 1 = 300.19 kJ / kg P r 1 = 1.386 Refer the Table A-17 “Ideal-gas properties of air”, obtain the below property at corresponding to temperature 550 K . h 2 a = 554.74 kJ / kg Calculate the final relative pressure ( P r 2 ) . P r 2 = P r 1 ( P 2 P 1 ) P r 2 = 1.386 ( 600 kPa 95 kPa ) = 8.754 Refer to Table A-17E, “Ideal-gas properties of air”, obtain the below properties at the relative pressure P 1 of 8.754 using interpolation method. Write the relative pressure and Enthalpy as in Table (1). Relative Pressure Enthalpy, kJ / kg 8.411 503.02 8.754 ? 9.031 513.32 Write the formula of interpolation method of two variables. y 2 = ( x 2 − x 1 ) ( y 3 − y 1 ) ( x 3 − x 1 ) + y 1 (III) Here, the variables denote by x and y are relative pressure and enthalpy b) To determine The exit temperature of air during reversible process.

5th Edition

ISBN: 9780078027680

Author: Yunus A. Cengel Dr., Robert H. Turner, John M. Cimbala

Publisher: McGraw-Hill Education

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Chapter 8, Problem 122P

To determine

The isentropic efficiency of compressor.

To determine

The exit temperature of air during reversible process.

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Chapter 8, Problem 120P

Chapter 8, Problem 123P

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Fundamentals of Thermal-Fluid Sciences

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