90 ℃ High Temperature Air Source Heat Pump FKH-35II CGW

1.Smart Control and Remote Surveillance：

The system is outfitted with a cutting - edge microcomputer control board. This board facilitates intelligent control functions, such as automatic protection mechanisms and fault alarm systems. 



2.All - Encompassing Protection Framework:

A diverse array of protection mechanisms is seamlessly integrated into the system. These encompass safeguards designed to prevent compressor exhaust over - temperature, abnormal fluctuations in system high and low pressures, freezing and overheating scenarios, as well as fan motor overload. 



3.Noise - Reducing Design Philosophy:

The system adopts a noise - mitigating design strategy. This is made possible by the use of low - noise compressors and axial fans, which form the foundation of the noise - reduction effort. Additionally, a sophisticated combination of multiple noise - reduction control system designs and sound - absorbing barrier technology is employed. These collective measures work in harmony to significantly reduce operating noise levels.



4.Advanced Defrosting Intelligence:

The system incorporates intelligent non - sensing defrosting technology. By conducting a comprehensive evaluation of multiple variables, the system can precisely ascertain the frosting condition. This enables it to perform defrosting operations as needed, irrespective of whether frost is visually present. As a result, the impact of defrosting on heating efficiency is minimized, and the system's stability is enhanced.

1.Intelligent energy dispatch: 

Combined with smart grid technology, heat pumps can automatically adjust their operating status based on grid load, achieve peak shaving and valley filling, and optimize energy efficiency.

2.Energy recovery and reuse: 

In some industrial scenarios, heat pumps can recover waste heat from the production process, increase the temperature of waste heat through heat pump technology, achieve energy reuse, and further improve energy utilization efficiency.

3.Multiple protection mechanisms:

Equipped with multiple protection mechanisms such as compressor exhaust temperature protection, system high and low pressure protection, anti freezing and anti heat protection, and fan motor overload protection, ensuring the safe and reliable operation of the system.

4.Wide applicability:

Suitable for multiple fields such as industry, commerce, and civilian use, meeting the high temperature hot water needs in different scenarios.

>> Product Operate Guide

Upon taking delivery of the goods, the purchaser will furnish an instructional video.

Q1.How much operating cost can a 90 ℃ air source high-temperature heat pump save compared to traditional heating methods?

A: According to actual operating data, compared to traditional heating methods such as electric boilers and gas boilers, 90 ℃ air source high-temperature heat pumps can save about 30% -50% of operating costs, depending on local electricity prices, gas prices, and usage conditions.

Q2.Does a 90 ℃ air source high-temperature heat pump have an impact on the environment?

A: There are no negative impacts. During the operation of a 90 ℃ 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.

Q3.Can the 90 ℃ air source high-temperature heat pump operate stably in low-temperature environments?

A: Yes, the 90 ℃ air source high-temperature heat pump adopts two-stage compression technology, which can operate stably even in low-temperature environments of -35 ℃ and provide continuous high-temperature hot water.