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Water Chiller
196 products found
Capacity auto-regulated to Ensure the unit work safely under the best working condition
Hi-efficiency transfer tube has hi-efficiency condensation And anti-corrosion functions.
The pressure in either the evaporator or condenser will be the saturation pressure for the given temperature
he Air-Conditioning and Refrigeration Institute (ARI) provides test standards and certification.
The design conditions imposed by most water-cooled HVAC systems work very well for centrifugal chillers.
The centrifugal compressor is a non-positive displacement type.
The compressor assembly is made up of a prime mover and a centrifugal compressor.
The evaporator is a heat exchanger that removes the building heat from the chilled water.
the chiller rejects the heat collected from the chilled water plus the heat from the compressor to a second water loop.
A centrifugal chiller utilizes the vapor compression cycle to chill water
All the specifications above are according to ARI standard 550/590.
Refrigerant: R22. It can be used by R404A according to user requirements.
Running electric charge save at least 29% than indirect cooling chiller.
The refrigerant from the receiver enters the evaporator.
The refrigerant leaving the bottom of the receiver is 100% liquid.
the density difference between liquid and gaseous refrigerant drives thermosiphon systems.
Forced-flow evaporators use a pump or an ejector as the driving force
Flooded evaporators, sometimes called wet evaporators, are divided into forced-flow evaporators and thermosiphon evaporators.
Direct cooling chiller no need air agitation, the traditional indirct chiller have large temperature difference
the refrigerant is not fully evaporated and superheated at the flooded evaporator outlet.
The receiver acts as a separator of gaseous and liquid refrigerant after the expansion valve
No need plate heat exchanger, no need chilled water pumps, water tanks.
flooded evaporator operates in conjunction with a low-pressure receiver.
Our company professional production of oxidation-specific chiller
An absorption chiller uses a heat source to drive the refrigeration cycle in place of a mechanical compressor.
The drop in pressure causes the warm refrigerant liquid to change phase from liquid to gas.
we treat our “modular chilling system” as being made up of stand-alone chillers coupled together up.
The metering device restricts the flow of liquid refrigerant which causes a drop in pressure.
Compressed refrigerant gas is sent from the compressor to a condenser
The transfer of heat allows the refrigerant gas to condense into a liquid which is then sent to a metering device.
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