Compressor: T1 = -5°C, 3.5 bar, compresses adiabatically (Q = 0) T2 = 75°C, 14 bar Condenser T3 = 28 °C, 14 bar Expansio
Posted: Mon May 16, 2022 5:44 am
Compressor: T1 = -5°C, 3.5 bar, compresses adiabatically (Q = 0) T2 = 75°C, 14 bar
Condenser T3 = 28 °C, 14 bar Expansion valve P4 = 3.5 bar
Air supplied to the condenser: T5 = 20 °C, 1 bar, V = 0.42 m^3/s T6 = 50 °C, isobaric (P6 = P5) cp air = 1.005 kJ/kg K
Assume KE, PE~0
Determine: entropy output (kW/K) for compressor, condenser, and valve. & T-s diagram
Heat Pump Corder:1= Compressor X R-22 A tapata
Condenser T3 = 28 °C, 14 bar Expansion valve P4 = 3.5 bar
Air supplied to the condenser: T5 = 20 °C, 1 bar, V = 0.42 m^3/s T6 = 50 °C, isobaric (P6 = P5) cp air = 1.005 kJ/kg K
Assume KE, PE~0
Determine: entropy output (kW/K) for compressor, condenser, and valve. & T-s diagram
- Compressor T1 5 C 3 5 Bar Compresses Adiabatically Q 0 T2 75 C 14 Bar Condenser T3 28 C 14 Bar Expansio 1 (316.46 KiB) Viewed 36 times