- Self-balance Multistage Pump
- Horizontal Multistage Pump
- Vertical Multistage Pump
- Boiler Feed Pump
- Split Case Pump
- Single Stage Pump
- Chemical Process Pump
- Mining Pump
- Oil Pump
- Pneumatic Diaphragm Pump
- Diesel Engine Pump
- Sewage Pump
- Inline Pump
- Submersible Pump
- Condensate Pump
- Mud Pump
- Axial Flow Pump
- Mixed Flow Pump
- Fire Fighting Pump
- Vacuum Pump
The working principle of air source heat pump
Heat pump technology is a new energy technology that has attracted much attention worldwide in recent years. It is a device that transfers heat from a low-temperature heat source to a high-temperature heat source by consuming a part of high-grade energy. The heat transferred to the high-temperature heat source includes the high-grade energy consumed and the heat absorbed from the low-temperature heat source.
1. The composition of the air source heat pump hot water unit
Air source heat pump water heaters (units) are generally composed of compressors, condensers, liquid storage tanks, expansion valves, evaporators and other components.
2. Working principle of air heat source pump
When the air heat source pump is working, it consumes part of the energy itself, excavates the energy stored in the air, and uses it by increasing the temperature through the heat transfer working medium circulation system, while the work consumed by the entire heat pump device is only a small part of the output work. part. The use of heat pump technology can save a lot of high-grade energy.
In operation, the evaporator absorbs heat from the surrounding environment to evaporate the heat transfer working fluid. The temperature and pressure of the working fluid rise after passing through the compressor. When the high temperature steam is condensed into liquid through the condenser, the released heat is transferred to the water storage tank. Of water. The condensed heat transfer working fluid returns to the evaporator through the expansion valve, and then is evaporated again, and so on.
3. The advantages of air source heat pump in traditional fermentation
1. Energy saving: The air source heat pump has energy saving advantages over the current traditional steam heating.
2. Environmental protection: The air source heat pump has no toxic and harmful combustible emissions, and no greenhouse gas emissions. The noise complies with environmental protection requirements.
3. Safety: Microcomputer control, complete separation of water and electricity, no risk of leakage, no danger of poisoning or explosion.
4. The original site, crafts and equipment can be used, the area is small, the weight is light, and it can be moved.
5. There are many boiler failures and high repair costs. After the air source heat pump is used, the boiler is not used in the fermentation process, which can greatly reduce the operating cost of the boiler.
6. The existing power supply system of the air source heat pump can meet the requirements without the need for line modification. The air source heat pump does not need steam, circulating water, and the original water and steam pipes do not need to be repaired.
7. It conforms to the energy-saving and consumption-reducing policies advocated by the state.
It can be seen that the application of air source heat pump in traditional fermentation has a good value of replacing energy saving and consumption reduction, and it is a new energy technology worth developing.
4. The application characteristics of air source heat pump in traditional fermentation
The application of air source heat pump in traditional fermentation is the first in a comprehensive range. It is an exploration of traditional fermentation energy. This technology has low investment in equipment, low energy consumption, safety, environmental protection and convenience. It will open up a new revolution in the replacement of traditional fermentation energy.
- Capacity:60-33005m³/h
- Head:0.95-30.2bar
- Price:$2200-215000
- Capacity:60-33005m³/h
- Head:0.95-30.2bar
- Price:$2200-215000
- Capacity:5.5-2600m³/h
- Head:1.6-25bar
- Price:$4300-37000
- Capacity:5.5~400m³/h
- Head:0.42-12.5bar
- Price:$560-9800