|Shell Material:||Seamless/304,316Lstainless Steel Pipe||Cooling Capacity:||18KW~4000KW|
|Heat Exchange Tube:||Red Copper/copper Nickel Alloy/aluminum Brass Tube||Cover Material:||Carbon Steel|
tube and shell heat exchanger,
u tube heat exchanger
Central Air Conditioner Water - Cooled Type
Shell and Tube Heat Exchanger
The working principle of the chiller The refrigerant (ie refrigerant) absorbs the heat of the cooled material
and vaporizes it into steam in the evaporator.
The compressor continuously draws the generated steam from the evaporator and compresses it. After
compression, , High-pressure steam is sent to the condenser after the cooling medium (such as water, air,
etc.) heat condensed into high-pressure liquid, the throttle through the throttle body after the pressure
into the evaporator, vaporized again to absorb the heat of the object, cycle. Heating, the refrigerant
through the four-way valve to change the direction of refrigerant flow, the direction of refrigerant flow and
refrigeration just the opposite, the refrigerant first through the evaporator, and then back to the
condenser, and finally back to the compressor.
The liquid refrigerant in the evaporator absorbs the heat in the water and begins to evaporate. Finally, a
certain temperature difference between the refrigerant and the water is formed.
The liquid refrigerant is completely evaporated into a gaseous state and sucked and compressed by the
compressor (pressure and temperature increase ), Gaseous refrigerant through the condenser (air-
cooled / water-cooled) to absorb heat, condensed into a liquid.
Through the expansion valve (or capillary) after the throttle into low-temperature low-pressure refrigerant
into the evaporator to complete the refrigerant cycle process. Water circulation system:
U SHAPED TUBE DRY EVAPORATOR (DOUBLE MACHINE)
CAPACITY: 35KW TO 95KW
Qn-rated refrigerating capacity Wn-cooling water flow Wm-maximum cooling water flow
Dpn-pressure drop of recirculating cooling water Dts-overheat temperature
Contact Person: Mrs. Nichole Deng