Features of 20-65 kw CO2 Air To Water Heat Pump
The carbon dioxide heat pump includes a shell. A partition is arranged horizontally in the shell, and a heat exchanger assembly is fixed above the partition. The heat exchanger assembly includes heat exchangers arranged obliquely on both sides of the partition, and is arranged above the heat exchanger assembly. There are fans. In the present invention, a horizontal baffle is arranged inside the shell, the baffle divides the shell into upper and lower spaces, the heat exchanger assembly is installed above the baffle, and the piping system and the circulation system are installed in the space below the baffle. , Separate the heat exchanger assembly and the piping system by the baffle to avoid the convection between the heat exchanger and the piping system, so as to prevent the mutual influence between the two, which is beneficial to the normal operation of the carbon dioxide heat pump.
Product Details of 20-65 kw CO2 Air To Water Heat Pump
Application:It is suitable for heating and hot water supply of family, villa, apartment,business restaurant, hotel and multi-floor living building in city and village.
Company introduction:
Leomon technology rnjoy rich experience in supplying air source heat pumps, supply its own brand and OEM for customers worldwide.
Products series: air source heat pumps for household, water heater, swimming pool heat pumps, heating system
Keep working at technical and commercial ability, company is athorized over 300 patents, norminated factory for supplying heat pumps.
Quality Control: DC Inverter CO2(R744) Air Source Heat Pump Hot Water And Heating System
100% products inspection before delivery, 3 phrases test to guarantee right quality and quantity before delivery
Whole lifespan after sale service
Some specification of 20-65 kw CO2 Air To Water Heat Pump
Name | Carbon Dioxide heat pump unit | |||
Model number | SFYRS-60II | |||
Power supply | 380V/50Hz | |||
Heating mode | One-time formula | |||
Performance parameter | Test Standard | Standard working condition | Low temperature condition | High temperature condition |
Heat capacity (kW) | 64.4 | 55.4 | 53.8 | |
Electricity Consumption (kW) | 13.7 | 13 | 16.3 | |
COP | 4.7 | 4.3 | 3.3 | |
Hot Water flow (m³/h) | 1.38 | 1.03 | 0.61 | |
Maximum current | 34A | |||
Weight | 1000kg | |||
Contour dimension | Length1500*Wide1200*High1800 | |||
Design pressure | High pressure side:14.5MPa,Low pressure side6MPa | |||
Compressor | Semi-closed reciprocating | |||
Refrigerant name | R744 ( CO2 ) | |||
Water heat exchanger | Copper bushing changer | |||
Heat source side exchanger | Plate heat exchanger | |||
Feed pump | 0.75kW | |||
Operation Panel | Color touch screen | |||
Control System | Siemens | |||
Water connection | Feed water inlet | DN40Internal thread | ||
Hot Water Inlet | DN20Internal thread | |||
Insulated water inlet | DN20Internal thread | |||
Heat connection | Hot Water Inlet | DN40Internal thread | ||
Heat source water outlet | DN32Internal thread | |||
SCOPE of use | Feed water temperature | 5~29℃ | ||
Effluent temperature | 55~90°℃ | |||
Maximum flow | 2.5m³/h | |||
Ambient temperature | ’-10~43℃ | |||
Notes | Standard working condition | Inlet temperature: 15 °C, outlet temperature: 55 °C, heat source water inlet temperature: 15 °C | ||
Low temperature condition | The inlet temperature is 9 °C, outlet temperature is 55 °C, and the inlet temperature of heat source water is 10 °C | |||
High temperature condition | The inlet temperature is 15 °C, the outlet temperature is 90 °C, and the inlet temperature of heat source water is 15 °C |