Explanation Given: Inlet temperature of water is 60 F . Inlet pressure of water is 60 lbf/in 2 . Mass flow arte of air is 4 lbm/s . Inlet temperature of air is 1400 R . Outlet temperature of air is 680 R . Pressure of air is 150 lbf/in 2 . Concept used: Write the expression for heat gain by water. Q = m ˙ w [ C p , w ( T w , o − T w , i ) + h f g ] ...... (1) Here, Q is the heat gain by water, m ˙ is the mass flow rate of water, C p , w is the specific heat of water, T w , i is the inlet temperature of water, h f g is the specific enthalpy of evaporation and T w , o is the outlet temperature of water. Write the expression for heat lost by air. Q = m ˙ a C p , a ( T a , i − T a , o ) ...... (2) Here, m ˙ a is the mass flow rate of air, C p , a is the specific heat of air, T a , i is the inlet temperature of air and T a , o is the outlet temperature of air. The heat lost by the air is gained by the water. Substitute m ˙ a C p , a ( T a , i − T a , o ) for Q in equation (1). m ˙ a C p , a ( T a , i − T a , o ) = m ˙ w [ C p , w ( T w , o − T w , i ) + h f g ] Rearrange above expression for m ˙ w . m ˙ w = m ˙ a C p , a ( T a , i − T a , o ) [ C p , w ( T w , o − T w , i ) + h f g ]

10th Edition

ISBN: 9781119494966

Author: Borgnakke, C. (claus), Sonntag, Richard Edwin, Author.

Publisher: Wiley,

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Work and Heat Transfer

It is generally related to thermal engineering which tells about the use, creation, conversion and transfer of heat energy between the systems. It is also considered that to transfer heat from one source to another, transfer of masses is also required. T…

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Chapter 4, Problem 4.120EP

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The flow rate of water exit state is saturated vapor.

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Chapter 4, Problem 4.119EP

Chapter 4, Problem 4.121EP

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The flow rate of water exit state is saturated vapor.

Solution Summary: The author states that the flow rate of water exit state is saturated vapor and the mass flow arte of air is 4lbm/s.

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