(a) Explanation Given: The inlet pressure of steam ( P 1 ) is 8 MPa . The inlet temperature of steam ( T 1 ) is 500 ° C . The mass flow rate of steam ( m ˙ ) is 3 kg/s . The inlet pressure of steam ( P 2 ) is 30 kPa . The isentropic efficiency of the turbine ( η ) is 0.90 . Calculation: Refer Table A-6, “superheated water table”, obtain the following properties at the pressure and temperature of 8 MPa and 500 °C respectively. h 1 = 3399.5 kJ / kg s 1 = 6.7266 kJ / kg ⋅ K Refer to Table A-5, “Saturated water-Pressure table”, obtain the following properties at the pressure of 30 kPa . h f = 289.27 kJ / kg h f g = 2335.3 kJ / kg s f = 0.9441 kJ / kg ⋅ K s f g = 6.8234 kJ / kg ⋅ K For the reversible adiabatic process the entropy remains constant. s 1 = s 2 s Write the expression for the vapor quality using final entropy. x 2 s = s 2 s − s f s f g x 2 s = 6.7266 kJ / kg ⋅ K − 0.9441 kJ / kg ⋅ K 6.8234 kJ / kg ⋅ K = 0.8475 Write the expression for the final enthalpy for the isentropic process. h 2 s = h f + x 2 s h f g h 2 s = 289.27 kJ / kg + ( 0.8475 ) ( 2 , 335.3 kJ / kg ) = 2 , 268.3 kJ / kg Write the energy balance equation for closed system. E ˙ i n − E ˙ o u t = Δ E ˙ s y s t e m (I) Here, rate of net energy transfer into the control volume is E ˙ i n , rate of net energy transfer exit from the control volume is E ˙ o u t and rate of change in internal energy of system is Δ E ˙ s y s t e m (b) To determine The power output of the turbine.

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 116P

(a)

To determine

The exit temperature of the turbine.

(b)

To determine

The power output of the turbine.

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Chapter 8, Problem 115P

Chapter 8, Problem 118P

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Fundamentals of Thermal-Fluid Sciences

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