Explanation Given: Initial volume of tank is 1 gal . Mass of R-410Ais 0 .03 lbm . Temperature of R-410Ais 20 F . Temperature of tank and its content is 20 F . Concept used: Write the expression for energy balance equation for tank. m 2 u 2 = m 1 h 1 + Q ..... (1) Here, m 2 is the final mass of R-410A, m 1 is the initial mass of R-410A, u 2 is the final internal energy of tank, h 1 is the initial specific enthalpy of R-410A and Q is the heat transfer. Write the expression for final specific volume of R-410A in tank. v 2 = V m 2 ..... (2) Here, v 2 is specific volume and V is the volume of tank. Calculation: The mass of R-410A will be constant as 0.03 lbm inside the tank. Substitute 1 gal for V and 0.03 lbm for m 2 in equation (2). v 2 = 1 gal ( 0.13368 ft 3 1 gal ) 0.03 = 4.456 ft 3 /lbm Refer to table F.9.2 "Properties of superheated R-410A" to obtain the pressure of superheated R-410A corresponding to 4.456 ft 3 /lbm specific volume and final temperature as 20 F . P 2 = 15 + ( 4

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Author: Borgnakke

Publisher: WILEY C

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Chapter 4, Problem 4.130EP

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The final pressure before closing of valve and the amount of heat transfer.

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Chapter 4, Problem 4.129EP

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Chapter 4 Solutions

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