The main components of the water cooled chiller are evaporator condenser compressor and expansion valve.
Water cooled chiller cooling tower.
The discharged water is then recycled back into the plant to be used to cool the system again or discharged into the environment.
If your requirements are for 90 deg f 32 c then you most likely need a cooling tower or fluid cooler.
Water cooled condensers are typically tube in tube tube in shell or plate type heat exchangers in which water from a cooling tower or other water source cools the refrigerant.
A water cooled chiller is a type of chiller that s usually combined with a cooling tower for large capacity applications like water jet cutting and food processing.
Contrastingly water cooled chillers use water to cool the refrigerant in the condenser.
Where available cold water readily available in nearby water bodies might be used directly for cooling replace or supplement cooling towers.
A cooling tower is a large heat exchanger unit which provides cooling water to remove heat from a coolant most often water that has been used to cool machinery process fluids or buildings.
Besides air cooled chiller topchiller also provides water cooled chiller and cooling tower.
With large capacity applications it s possible that an air cooled chiller will generate too much heat.
This kind of water cooled chiller works with a proper cooling tower and circulation water pump to make a complete water cooling system.
If you require water or glycol year round to be between 80 90 deg f then use of chiller and fluid cooler is recommended.
The condenser water is pumped up to the cooling towers and it is sprayed into the air stream.
The cool ambient air will enter and come in direct contact with the spray of condenser water in an open cooling tower this will allow the heat of the condenser water to transfer into the air and this air is then blown out into the atmosphere.
Since you are relying solely on the ambient temp to cool your glycol selection of this fan only machine is imperative.
When the cooling water meets with air a small portion evaporates lowering its temperature.
Cooling towers may either use the evaporation of water to remove process heat and cool the working fluid to near the wet bulb air temperature or in the case of closed circuit dry cooling towers rely solely on air to cool the working fluid to near the dry bulb air temperature.
This is known as evaporative cooling.
The deep water source cooling system in toronto ontario canada is an.
Water cooled chiller cooling capacity from 2ton to 65ton and water cooling tower from 30ton to 380ton.
Chillers absorb heat from a coolant which is fully contained in a cooling system.