(a) Explanation Write the expression for rate of heat transfer. Q ˙ = ( h 2 − h 1 ) + m ˙ a m ˙ w ( c p a ) ( T 4 − T 3 ) (I) Here, the rate of heat transfer is Q ˙ , enthalpy of saturated water vapor is h 1 , enthalpy of saturated liquid is h 1 , mass flow rate of air is m ˙ a , mass flow rate of water is m ˙ w , the exit temperature of air is T 4 and ambient air temperature is T 3 . The mass flow rate of air is 170 times mass flow rate of water. m ˙ a = 170 m ˙ w m ˙ a m ˙ w = 170 (II) Conclusion: Refer to Table A-3 “Properties of saturated water-pressure table”. At pressure 100 kPa , obtain enthalpy of saturated vapor ( h 1 ) as 2778.1 kJ/kg , entropy of saturated vapor ( s 1 ) as 6.5863 kJ/kg ⋅ K . Refer to Table A-3 “Properties of saturated water-temperature table”. At temperature 20 ° C , obtain enthalpy of saturated liquid ( h 2 ) as 83 (b) To determine The rate of entropy production.

Fundamentals of Engineering Thermodynamics

8th Edition

ISBN: 9781118412930

Author: Michael J. Moran, Howard N. Shapiro, Daisie D. Boettner, Margaret B. Bailey

Publisher: WILEY

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Chapter 6.13, Problem 106P

(a)

To determine

The rate of heat transfer.

(b)

To determine

The rate of entropy production.

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Chapter 6.13, Problem 105P

Chapter 6.13, Problem 107P

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