SKU: AG-384

Heat Pump + Air Conditioning + Refrigeration Unit with Cycle Inversion Valve

This unit can have different applications, depending on the type of cold focus or hot focus used in the processes of evaporation and condensation. This unit consists of the following stages:

  1. Compression.
  2. Condensation.
  3. Expansion.
  4. Evaporation.

 

 

1- Determination of COP (coefficient of performance) of a heat pump. Water as heat source. (Water-water heat pump).

2- Determination of COP (coefficient of performance) of a heat pump. Air as heat source. (Water-air heat pump).

3- Determination of COP (coefficient of performance) of a heat pump. Air as heat source. (Air-air heat pump).

4- Determination of COP (coefficient of performance) of a heat pump. Water as heat source. (Air-water heat pump).

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

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

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

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

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

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

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

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

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

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

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

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

17.- Practices with cycle inversion.

 

 


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