SKU: AG-374

Heat Pump, Refrigeration and Air Conditioning Unit (two condensers (water and air) and two evaporators (water and air)

  • Bench-top unit.
  • Anodized aluminum structure and panels of painted steel.
  • Main metallic elements in stainless steel.
  • Diagram in the front panel with similar distribution to the elements in the real unit.
  • Cooling compressor.
  • Air condenser.
  • Water condenser.
  • High pressure control.
  • Coolant accumulation tank.
  • Cooling filter.
  • Expansion valve.
  • Water evaporator.
  • Air evaporator.
  • Tank of division of the cooling liquid.
  • 4 Manometers.
  • 10 Temperature sensors.
  • Flow meters: 2 Water flow meters, range: 0.2-2  l./min. 1 Cooling flow meter, range: 5-60  l./h. Wattmeter.
  • Enthalpy diagram of the refrigerant R134a.
  • Electronic console.

1- Determination of the inlet power, heat produced and performance coefficient. Water as heat source. (Water-water heat pump).

2- Determination of the inlet power, produced heat and performance coefficient. Air as heat source. (Water-air heat pump).

3- Determination of the inlet power, produced heat and performance coefficient. Air as heat source. (Air-air heat pump).

4- Determination of the inlet power, heat produced and performance coefficient. Water as heat source. (Air- water heat pump).

5- Preparation of performance curves of the unit at different inlet and outlet temperatures. Water as heat source. (Water-water heat pump).

6- Preparation of performance curves of the unit at different inlet and outlet temperatures. Air as heat source. (Water-air heat pump).

7- Preparation of performance curves of the unit at different inlet and outlet temperatures. Water as heat source. (Air-water heat pump).

8- Preparation of the performance curves of the unit at different inlet and outlet temperatures. Air as heat source. (Air-air heat pump).

9- Lay out of the steam compression cycle in a diagram P-H and comparison with the ideal cycle. Water as heat source. (Water-water heat pump).

10- Lay out of the steam compression cycle in a diagram P-H and comparison with the ideal cycle. Air as heat source. (Water-air heat pump).

11- Lay out of the steam compression cycle in a diagram P-H and comparison with the ideal cycle. Water as heat source. (Air- water heat pump).

12- Lay out of the steam compression cycle in a diagram P-H and comparison with the ideal cycle. Air as heat source. (Air-air heat pump).

13- Preparation of the performance curves of the unit based on the properties of the refrigerant and at different condensation and evaporation temperatures. Water as heat source. (Water-water heat pump).

14- Preparation of the performance curves of the unit based on the properties of the refrigerant and at different condensation and evaporation temperatures. Air as heat source. (Water-air heat pump).

15- Preparation of the performance curves of the unit based on the properties of the refrigerant and at different condensation and evaporation temperatures. Water as heat source. (Air-water heat pump).

16- Preparation of the performance curves of the unit based on the properties of the refrigerant and at different condensation and evaporation temperatures. Air as heat source. (Air- air heat pump).


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