Product Introduction:
This product can be used for teaching experiments in heat pump related disciplines such as Engineering Thermodynamics, Principles of Refrigeration Equipment, and Heat Pump Technology; It can be used to measure the heating coefficient of the compressor in the system, the influence of different water source temperatures on the heating performance of the heat pump, the influence of compression ratio on the efficiency of the heat pump, the heat pump performance curves generated at different evaporation and condensation temperatures, and to draw pressure enthalpy diagrams and other experimental contents. According to the second law of thermodynamics, by consuming electrical power, the thermal energy in low-temperature heat sources (external water sources, atmosphere, soil) is transferred to high-temperature heat sources, thereby achieving heating effect.
The refrigeration and thermal cycle components of the equipment are clearly visible and neatly arranged on the experimental platform. The key parameters in refrigeration and thermal cycles, such as refrigerant flow rate, pressure, and temperature, water temperature, and compressor power, are displayed on the screen.
detailed information
| PRODUCT MODEL | R306 | product name | Air-Water-Soil Triple Source Heat Pump Experiment System |
| Product specifications | 1300×650×500mm | product material | |
| Usage environment | Room temperature, relative humidity ≤ 85% | Input power supply | Single phase three wire, 220V ± 5%, 50HZ |
| Belonging series | Refrigeration&HVAC | Cooperate with modules |
| Experimental function: |
| 1、It can measure the input power, output heat, and conversion efficiency between the two; 2、It can draw performance curves of refrigerants at different evaporation and condensation temperatures; 3、The actual evaporation compression cycle curve can be plotted on the enthalpy diagram and compared with the ideal cycle; 4、Can verify the energy balance in the entire circulatory system; 5、The impact of compressor pressure ratio on compression efficiency can be evaluated; 6、The overall heat transfer coefficient between the evaporator and condenser can be evaluated; 7、Analyze the impact of quantitative static water sources and non quantitative flowing water sources as low-temperature heat sources on the efficiency of heat pumps; 8、Can analyze the impact of the internal composition of various fillers such as soil/sand/water on the efficiency of heat pumps; 9、Can analyze the impact of soil/sand moisture content on heat pump efficiency. 10、Comprehensive energy experimental research can be carried out by expanding the combination of phase change thermal storage, multi energy complementarity, energy storage and other system components |