Refrigeration Cycle Calculator

Refrigeration Cycle Calculator — Analyze HVAC System Performance

Refrigeration Cycle Calculator

Calculate COP, refrigeration capacity, compressor work, and system efficiency for vapor-compression refrigeration cycles.

Step 1: Temperature Parameters

Evaporator Temperature

Condenser Temperature

Refrigerant Type

Typical Temperature Ranges

Evaporator: -40°C to 10°C. Condenser: 30°C to 60°C. Ideal refrigeration cycle assumes isentropic compression and constant pressure heat transfer.

Step 2: System Parameters

Mass Flow Rate (kg/s)

Compressor Isentropic Efficiency

80%

Refrigeration Capacity (kW)

Include superheat in calculations

Include subcooling in calculations

Performance Metrics

COP (Coefficient of Performance) = Cooling Effect / Compressor Work. Higher COP indicates better efficiency. Typical COP range: 2.0-5.0.

Refrigeration Cycle Analysis

Summary

Performance Data

Refrigerant Properties

System Coefficient of Performance (COP)

3.42

Good efficiency for commercial refrigeration

Refrigeration Capacity

5.0 kW

Compressor Power

1.46 kW

Heat Rejection

6.46 kW

Mass Flow Rate

0.05 kg/s

Cycle Performance Data

Parameter	Value	Unit	Description

Carnot COP Reference

Carnot COP = T_evap / (T_cond – T_evap) [in Kelvin]. Actual COP is always lower due to irreversibilities.

Refrigerant Properties at Operating Conditions

Refrigeration Cycle Formula

COP = Q_evap / W_comp = (h₁ – h₄) / (h₂ – h₁)

Where h₁ = enthalpy after evaporator, h₂ = enthalpy after compressor, h₄ = enthalpy after expansion valve. Based on vapor-compression cycle with isentropic compression.

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