loading
| Availability: | |
|---|---|
| Quantity: | |
1.Efficient and energy-saving:
In extremely cold environments, compared to traditional low-temperature air source heat pumps, the overall capacity attenuation is smaller and the energy efficiency is higher. The comprehensive energy attenuation rate shall not exceed 10%, and the lower the ambient temperature, the higher the heating water temperature, meeting the requirements of end of pipe thermal matching.
2.Stable and reliable:
Double stage compression technology, with dual compressors working alternately, ensuring stable operating pressure and avoiding overload. Equipped with multiple self inspection and protection functions, such as compressor exhaust temperature protection, system high and low pressure protection, etc., to ensure the safe operation of the system.
3.Long lifespan and low maintenance:
The equipment has a lifespan of 10-15 years, strong durability, and low maintenance costs. Designed with stainless steel sheet metal, it is heat-resistant, corrosion-resistant, and not easily deformed.
4.Intelligent and convenient:
Equipped with 5G cloud technology, it supports remote monitoring, fault diagnosis, and online maintenance to improve service efficiency. Intelligent zone defrosting reduces the impact of defrosting on heating efficiency and ensures more stable water temperature.
Type | FKH-40II/GW |
Top out wind | |
Power specifications | 380V 3N~50Hz |
Heating capacity under A1 | 40kW |
Heating consumption power under | 16.2kW |
Heating capacity under A2 | 38kW |
Heating consumption power under | 17.5kW |
Heating capacity under A3 | 35kW |
Heating consumption power | 19kW |
Heating capacity under A4working | 30kW |
Heating consumption power | 18.5kW |
Maximum operating current | 70A |
Discharge | 6.9m³/h |
Noise | ≤60dB(A) |
Water side pressure loss | ≤75kPa |
Unit size (ength x width x height mm) | 1550×780×1780 |
CONNECT SIZE | DN40(hexagon nipples) |
Unit weight (kg) | 412 |
1.Industrial High-Temperature Heating Solutions:
Delivering 60–85°C thermal fluids, this system sustains critical industrial processes including electroplating bath insulation, degreasing, and drying, lowering per-unit electroplating costs by 25–35% while enhancing process consistency for printing, dyeing, and textile sectors.
2.Prefabricated Construction Curing Acceleration:
Accelerating cement curing through 65–80°C high-humidity steam chambers, this solution reduces production cycles by 40% for precast concrete elements, ensuring structural integrity while minimizing energy consumption in prefabrication workshops.
3.Food Processing Industry:
By supplying 70–90°C sanitary hot water via high-temperature heat pumps, this system meets CIP (Clean-In-Place) and sterilization demands in meat, dairy, and beverage production, eliminating fossil fuel dependency while ensuring HACCP compliance.
>> Product Operate Guide
Upon taking delivery of the goods, the purchaser will furnish an instructional video.
Q1.What measures should be implemented if a high-temperature heat pump experiences unstable network signals or malfunctions in its mobile application interface?
Prioritize establishing a reliable network connection to enable seamless remote monitoring.If connectivity issues persist, initiate remote diagnostics via the manufacturer’s IoT platform or contact authorized service providers for on-site technical intervention.
Q2.Is the cleaning process for complex?
No. Annual maintenance requires only rinsing the external unit’s air filter—a procedure identical to residential air conditioners. No disassembly of internal components is necessary.
Q3.How should frost accumulation affecting heating performance be addressed?
Reduce frosting rate by optimizing fan speed (≤600 RPM) or increasing fin spacing (≥2.5 mm).For installations in high-humidity regions (>70% RH), deploy reverse-cycle defrosting or hot-gas bypass defrosting systems.
