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1.Fully automatic operation
Equipped with a self-developed microcomputer intelligent control system, it supports one key start, timed switch, and automatic adjustment of multiple temperature ranges, without the need for dedicated personnel to monitor, reducing manual input in commercial scenarios.
2.Efficiency of waste heat reuse
With the help of an efficient total heat recovery system, waste heat generated in commercial environments can be deeply captured, including residual heat energy from hotel air conditioning system exhaust and laundry room wastewater. After conversion, it can be used for heating or auxiliary heat source supply, achieving continuous energy optimization.
3.Environmentally friendly and reliable
Using environmentally friendly and efficient specialized refrigerants, with no emissions of smoke, exhaust gas, etc., meets environmental requirements and helps achieve the "dual carbon" goal. The host is equipped with self checking protection functions, including compressor exhaust temperature protection, system high and low pressure protection, anti freezing and anti heat protection, etc., to ensure the safe and stable operation of the system.
| Type | FSH-150II/GW | ||||
| power supply | 380V 3N~50Hz | ||||
| Rated operating conditions | Heating Capacity | 150KW | |||
| Input power | 62.6KW | ||||
| COP | 2.4 | ||||
| evaporator | 12℃ | ||||
| 7℃ | |||||
| condenser | 70℃ | ||||
| 75℃ | |||||
During the printing and dyeing process, a large amount of high-temperature hot water is required for fabric boiling, dyeing fixation, and equipment cleaning. The high-temperature water source heat pump can stably provide continuous hot water and ensure dyeing uniformity through intelligent temperature control. Compared to traditional steam boilers, there are no exhaust emissions, avoiding fabric contamination with smoke and dust that could affect quality; Modular design can be flexibly expanded according to production scale to meet the production capacity requirements of different batches.
2.Medical industry
The high-temperature steam (120 ℃) from the hospital disinfection supply center is used for medical device sterilization and 24-hour high-temperature domestic hot water supply in the inpatient department. 11 safety protection functions, such as over temperature power-off and leakage protection, to ensure the safety of sterile environments; Remote fault diagnosis can respond quickly and avoid equipment downtime affecting medical processes.
3.Papermaking industry
The preheating and drying process of pulp requires 60-120 ℃ thermal energy, and has high requirements for heat source stability. Temperature fluctuations can easily cause paper brittleness or deformation. The 120 ℃ ultra-high temperature mode can directly replace steam heating, with a higher COP value than electric heating equipment, reducing the energy consumption cost per ton of paper; The fully enclosed system reduces water pollution and meets the hygiene standards of the paper industry.
Q1.What are the security measures for the equipment?
The host has 11 device self check protections, including compressor exhaust temperature protection, system high and low pressure protection, anti freezing and anti heat protection, motor overload protection, frequent start limit protection, power-off memory recovery function, etc., which can comprehensively ensure the safety of the unit and its use
Q2.What are the specific functions of an intelligent control system?
The intelligent control system has multiple functions, including product operation control and protection, quick acquisition of host system operating parameters and timely issuance of control instructions, and achieving intelligent control of the unit to ensure stable operation; It also supports one click start, automatic temperature setting, timed power on/off, without the need for dedicated management, and has a 485 port to connect to remote service systems.
Q3.What specific operations can remote services achieve?
By leveraging 5G cloud technology, customers can remotely monitor and view device data and status in real-time through an app, enabling remote control of unit switches, temperature adjustments, and more; Engineers can perform remote fault analysis and diagnosis, online troubleshooting, and receive device alarm notifications.
