heat exchanger) C pl =Specific heat at constant pressure for the superheated liquid 11. COP 2 = = (16) hh Where COP 2 = coefficient of performance of vapour compression refrigeration system with heat exchanger 12. % increase in COP = x100 (17) COP COP 13. m R1 = 1 14. (18) m R1 =Mass flow of refrigerant when VCR with heat
The air-cooled condenser coil is assumed to be a single row, pass, hori zontal tube finned heat exchanger. Coil specifications are given in Table 3. The fan consists of a shrouded propeller fan and electric motor in a blow-through arrangement.
The Vapor Compression Refrigeration Cycle, Step By StepThe condenser is essentially a heat exchanger. Heat is transferred from the refrigerant to a flow of water. This water goes to a cooling tower for cooling in the case of water-cooled condensation. Note that seawater and air-cooling methods may also play this role. As the refrigerant flows through the condenser, it is in a constant pressure.
Dec 17, 2020 · = 0.0206 m3/s = 20.6 L/s if) The compressor power per kilowatt of refrigeration (which is the reciprocal of the coefficient of performance) is. 10.6 kW. Power of refrigeration =-=0.212 kW/kW. 50 kW (g) The compressor discharge temperature is the temperature of superheated vapor at point 2 which from Fig. A-4 is found to be 57°C.
Plate-fin and Tube Heat Exchangers Refrigerant To simulate the vapor compression cycle, a computational package, Genesym v1.0 (Yana Motta, 2001), was employed. It has three modes of operation:heat pump, air conditioning and air-cooled chiller. For the purposes of the present work, it simulated an air-to-air vapor compression cycle air-conditioner operating in steady-state condition.
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