An air-conditioning system is shown in the figure below in which air flows over tubes carrying Refrigerant 134a. Air enters with avolumetric flow rate of (AV)₁ = 150 m³/min at 32°C, 1 bar, and exits at 22°C, 0.95 bar. Refrigerant enters the tubes at 5 bar with aquality of 20% and exits at 5 bar, 20°C.AirP₁ = 1 barT₁ = 32°C = 305 K(AV)13Refrigerant 134aR-134aP3 = 5 barx3=0.20Air2-P2=0.95 barT₂ 22°C 295 KR-134aP4 = 5 barT₁ = 20°CIgnoring heat transfer at the outer surface of the air conditioner, and neglecting kinetic and potential energy effects, determine atsteady state:(a) the mass flow rate of the refrigerant, in kg/min.(b) the rate of heat transfer, in kJ/min, to the air from the refrigerant.

Answered: An air-conditioning system is shown in…

Structural Analysis

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ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

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An air-conditioning system is shown in the figure below in which air flows over tubes carrying Refrigerant 134a. Air enters with a
volumetric flow rate of (AV)₁ = 150 m³/min at 32°C, 1 bar, and exits at 22°C, 0.95 bar. Refrigerant enters the tubes at 5 bar with a
quality of 20% and exits at 5 bar, 20°C.
Air
P₁ = 1 bar
T₁ = 32°C = 305 K
(AV)1
3
Refrigerant 134a
R-134a
P3 = 5 bar
x3=0.20
Air
2-P2=0.95 bar
T₂ 22°C 295 K
R-134a
P4 = 5 bar
T₁ = 20°C
Ignoring heat transfer at the outer surface of the air conditioner, and neglecting kinetic and potential energy effects, determine at
steady state:
(a) the mass flow rate of the refrigerant, in kg/min.
(b) the rate of heat transfer, in kJ/min, to the air from the refrigerant.

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