Refrigeration System Calculator

Purpose: Calculate cooling loads, refrigerant properties, compressor sizing, and system efficiency based on thermodynamic cycles and heat transfer principles.

System Parameters

Refrigerant Type

Evaporator Temperature °C

Condenser Temperature °C

Subcooling °C

Superheating °C

Cooling Load Parameters

Application Type

Space Area m²

Space Height m

Ambient Temperature °C

Target Temperature °C

Occupancy people

Internal Heat Load kW

Compressor & Heat Exchanger Design

Isentropic Efficiency %

Volumetric Efficiency %

Motor Efficiency %

Operating Speed rpm

Evaporator LMTD °C

Condenser LMTD °C

Evaporator U-value W/m²K

Condenser U-value W/m²K

Thermodynamic Properties

Evaporator Pressure:-

Condenser Pressure:-

Pressure Ratio:-

Mass Flow Rate:-

Cooling Load Analysis

Sensible Heat Load:-

Latent Heat Load:-

Total Cooling Load (with Safety Factor):-

System Performance

Theoretical COP (Carnot):-

Actual COP (Cycle):-

Compressor Power (Elec.):-

Energy Efficiency Ratio (EER):-

Sizing & Verification

Compressor Swept Volume:-

Evaporator Area:-

Condenser Area:-

Condenser Heat Rejection:-

Heat Balance Error:-

COP = Refrigerating Effect / Compressor Work
Q = U × A × LMTD

🌡️ Refrigeration System Calculator

System Parameters

Cooling Load Parameters

Compressor & Heat Exchanger Design

Thermodynamic Properties

Cooling Load Analysis

System Performance

Sizing & Verification

Actions

The Role of LC and LG Arrangements in Process Plant Design

Instrumentation Safety and Signal Processing in Industrial Plants

Process Stream Analyzers: Applications, Sampling Systems, and Best Practices

Pressure and Temperature Measurement in Industrial Plants: Instruments and Applications

Industrial Level Measurement: Technologies, Applications, and Design Guidelines