Smart Cascade Air Source Heat Pump - 75℃ Hot Water, -20℃ Efficient Operation
Air source heat pump is an energy-saving device that transfers heat from a low-level heat source to a high-level heat source using high-level energy. It is based on the principle of inverse Carnot cycle, and achieves heat transfer through components such as compressors, with functions such as heating, cooling, and supplying domestic hot water.
Green and environmentally friendly:
There is no combustion process during operation, and no pollutants such as exhaust gas and waste residue are generated, making it environmentally friendly.
Silent design:
By using low-noise compressors and axial fans, combined with multiple noise reduction control system designs and sound-absorbing barrier technology, we can reduce operating noise and provide a peaceful usage environment.
Intelligent defrosting:
Adopting intelligent non sensing defrosting technology, the frosting situation is comprehensively judged through multiple variables, achieving defrosting with or without frost, reducing the impact of defrosting on heating efficiency, and improving system stability.
Double stage compression efficient heating:
Adopting two-stage compression technology effectively improves the heating efficiency of the heat pump in low-temperature environments, ensuring stable and efficient provision of 90 ℃ high-temperature hot water even under extreme low-temperature conditions of -35 ℃.
| 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 cond ition (-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 (ength x width x height mm) | 1030×410×1390 |
| CONNECT SIZE | DN32(hexagon nipples) |
| Unit weight (kg) | 160 |
1.Swimming pool constant temperature hot water, with a temperature range of 26 ℃ -28 ℃
The demand for winter swimming requires a well maintained swimming pool water temperature. It is not difficult to maintain a constant temperature between 26 ℃ and 28 ℃, but more consideration will be given to energy efficiency. Compared to the traditional method of heating a swimming pool with a boiler and plate exchanger, which can achieve good temperature control, the boiler firing low-temperature water will result in frequent starts and lower combustion efficiency. However, air source heat pumps are different in that firing low-temperature water is more energy-efficient and can save up to half of operating costs
2. Residential heating and 2.cooling:
Air source heat pumps are the main heating method in many regions, especially in areas that require reducing coal-fired pollution and improving winter air quality. At the same time, it can also be used for cooling in summer.
3. Heating in the field of animal husbandry:
In animal husbandry, whether it is pig farms, chicken farms or other types of farms, air source heat pumps can provide stable heating services, ensuring that animals can also have a good growth environment in cold seasons.
4. Agricultural greenhouse heating:
In cold regions, agricultural greenhouse heating is crucial for ensuring the normal growth of crops such as vegetables and fruits. Air source heat pumps can provide stable heating services, increase the temperature inside greenhouses, and ensure the growth of crops.
5. Heating and cooling for commercial buildings:
In commercial buildings, whether they are offices, shopping centers, or hotels, air source heat pumps can provide stable heating and cooling services, ensuring a comfortable indoor environment.
1.What is the extent of operating cost reduction that a 90 ℃ air - source high - temperature heat pump can achieve compared to conventional heating approaches?
Based on real - world operational data, when pitted against traditional heating methods like electric and gas boilers, the 90 ℃ air - source high - temperature heat pump can cut operating costs by approximately 30% - 50%.
2.Does the operation of a 90 ℃ air - source high - temperature heat pump have any adverse effects on the environment?
The answer is no. During its operation, there is no combustion involved, and thus no emissions of pollutants such as exhaust gases and waste residues, which makes it an environmentally friendly option. Furthermore, the use of eco - friendly refrigerants helps to mitigate damage to the ozone layer and reduce the greenhouse effect.
3.Is the 90 ℃ air - source high - temperature heat pump capable of stable operation in low - temperature conditions?
Indeed, it is. This heat pump employs a two - stage compression technology, enabling it to function steadily even in extremely low - temperature environments as cold as - 35 ℃ and supply a continuous stream of high - temperature hot water.
