The Computer Controlled Two-Stage Compression Refrigeration Unit, "TSCC", is clearly organized and represents a two-stage compression refrigeration system to obtain low temperatures.

The main components of the unit are:

  • Two hermetic compressors in series.
  • Condenser with fan.
  • Expansion valve.
  • Evaporator with fan.

The low pressure saturated refrigerant vapor, coming from the evaporator, is compressed in two compressors in series, increasing the temperature and transforming the saturated steam refrigerant into superheated steam refrigerant.

The high pressure superheated steam coming from the second compressor flows inside an air condenser where the refrigerant, in the vapor phase, transfers heat to the atmospheric air (hot source) as it passes through the tubes, producing a change of state of the refrigerant to liquid through a condensation process. The refrigerant liquid at the condenser outlet goes to an expansion valve, whose function is to control the flow of refrigerant in liquid state entering the evaporator.

Before the expansion process, the refrigerant can optionally go through a heat exchanger by valves, where it is possible to increase the subcooling of the liquid refrigerant.

The low-pressure liquid refrigerant coming from the expansion valve is introduced into an evaporator, producing a heat transfer from the cold source (atmospheric air) to the refrigerant and a phase change of the refrigerant, which becomes saturated steam. This process is isobaric (P=constant). The evaporator is located inside a refrigeration chamber, which includes an adjustable power heating element to simulate a variation in the conditions of the system and create different thermal loads.

At the end of this stage the cycle is closed and the refrigerant flow enters both compressors in series again. Between both compression stages, it is optional to make the refrigerant pass through an intermediate refrigeration stage by injecting the liquid refrigerant coming from the condenser and storage tank to the low pressure compressor outlet. This liquid refrigerant injected cools the refrigerant that enters the high pressure compressor.

The circuit also includes temperature and pressure measuring devices at key points of the cycle, a filter, a refrigerant storage tank to ensure an adequate flow of refrigerant in the circuit and a liquid separator to prevent liquid from entering the compressor.

This Computer Controlled Unit is supplied with the EDIBON Computer Control System (SCADA), and includes: The unit itself + a Control Interface Box + a Data Acquisition Board + Computer Control, Data Acquisition and Data Management Software Packages, for controlling the process and all parameters involved in the process.



  1. Study of the performance of a two-stage compression refrigeration cycle.
  2. Analysis of the compression rates distribution.
  3. Study of the influence of the inlet temperature to a high pressure compressor on the performance of a compression cycle.
  4. Study of the influence of an additional subcooling of the refrigerant.
  5. Representation of a thermodynamic cycle in a log p-h diagram.
  6. Sensors calibration.


  1. Properties of the refrigerant R-513a.
  2. Enthalpy-pressure diagram for the refrigerant R-513a.
  3. Study and function of the evaporator, condenser, expansion valve and pressure switch.
  4. Study and function of a storage tank and a liquid separator.

Other possibilities to be done with this Unit:

  1. Many students view results simultaneously. To view all results in real time in the classroom by means of a projector or an electronic whiteboard.
  2. Open Control, Multicontrol and Real Time Control. This unit allows intrinsically and/or extrinsically to change the span, gains, proportional, integral, derivative parameters, etc, in real time.
  3. The Computer Control System with SCADA and PID Control allow a real industrial simulation.
  4. This unit is totally safe as uses mechanical, electrical and electronic, and software safety devices.
  5. This unit can be used for doing applied research.
  6. This unit can be used for giving training courses to Industries even to other Technical Education Institutions.
  7. Control of the TSCC unit process through the control interface box without the computer.
  8. Visualization of all the sensors values used in the TSCC unit process.
  9. By using PLC-PI additional 19 more exercises can be done.
  10. Several other exercises can be done and designed by the user.



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