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1.Safety and Reliability:
In the heating operation, the system achieves complete water - electricity separation, thereby eradicating the potential danger of electric leakage and the associated hassles of leak prevention. It exhibits excellent resistance to high temperatures, high voltages, and corrosion. This not only enhances the heating efficiency of the unit but also significantly prolongs the equipment's service life.
2.High Adaptability:
The system can operate steadily when the ambient temperature is no lower than -35 ℃, catering to the requirements of diverse regions and industrial production scenarios. Many ultra - high temperature steam heat pump units employ a modular design, enabling flexible configuration based on various user demands. This design can meet both centralized and distributed heating needs, minimize heat loss during transportation, and reduce operating expenses.
3.Long Service Life and Low Maintenance:
The equipment boasts a service life of 10 - 15 years, featuring high durability and low maintenance costs. Its stainless - steel sheet - metal construction makes it heat - resistant, corrosion - resistant, and resistant to deformation.
4.Intelligent Control:
The system is equipped with an advanced microcomputer control board, supporting remote monitoring and intelligent control functions.
| Type | FKH-10I/CGW |
| Side air outlet | |
| Power specifications | 220V~50Hz |
| Heating capacity under A1 operating condition(20) | 10kW |
| Heating consumption power under A1 working condition | 4.8kW |
| Heating capacity under A2 working condition(7) | 9.5kW |
| Heating consumption power under A2 working condition | 5kW |
| Heating capacity under A3 working condition(-12) | 9.5kW |
| Heating consumption power under A3 working condition | 6.2kW |
| Heating capacity under A4working condition(-20) | 8kW |
| Heating consumption power under A4 working condition | 5.6kW |
| Maximum operating current | 40A |
| Discharge | 1.7m³/h |
| Noise | ≤56dB(A) |
| Water side pressure loss | ≤72kPa |
| Unit size (length x width x height mm) | 1030×410×1390 |
| CONNECT SIZE | DN32(hexagon nipples) |
| Unit weight (kg) | 160 |
1.Hospitals:
Meet the hot water supply needs of hospitals, and can also be used for drying and disinfecting clothes in hospital laundry rooms.
2.School:
Provide centralized heating and domestic hot water for the school, using air source heat pumps with underfloor heating, and adopting low flow rate and large temperature difference. The monthly heating cost can save more than 50% compared to electric heating, and more than 30% compared to gas wall mounted boiler heating.
3.Swimming Pool:
Used for constant temperature heating of swimming pool water. Compared with the traditional method of heating the swimming pool with a boiler and a plate exchanger, the operating cost can be saved by up to 80%, and it also has fresh air and dehumidification functions.
4.Large laundry and drying rooms:
Used for dry cleaning and sterilization, as well as steam drying, which is more efficient and saves energy consumption compared to traditional electric drying.
>> Product Operate Guide
Upon taking delivery of the goods, the purchaser will furnish an instructional video.
Q1.Is the maintenance cost of air source high-temperature heat pump high?
A: Not high. The high-temperature heat pump adopts a modular design, which is easy to install and maintain. At the same time, the device has a lifespan of 10-15 years and multiple protection mechanisms, reducing the probability of failures and thus lowering maintenance costs in the later stages.
Q2.Does exposure to low-temperature conditions influence the thermal performance of heat pumps?
A: To address this, routine maintenance of critical components—including defrost sensors and valves—is essential. Operators may be required to manually activate defrost protocols when necessary or recalibrate defrost timing intervals to align with fluctuations in ambient environmental temperatures.
Q3.Does air source high-temperature heat pump have an impact on the environment?
A: There are no negative impacts. During the operation of the air source high-temperature heat pump, there is no combustion process, and no pollutants such as exhaust gas and waste residue are generated, making it environmentally friendly. At the same time, environmentally friendly refrigerants are used to reduce the damage to the ozone layer and the impact of greenhouse effect.
