Applications - Process chillers
Industrial Process Applications
The purpose of chillers is to guarantee the global food supply, preserving the quality and freshness of meats, plants, confectionery or chocolate processes, cooling water temperature and ice making, etc.
Laser Cutting
Technology has created machines that can cut very specific steel products with the precise use of laser cutting machines. This laser operates at very high temperatures and must be cooled to function properly.
Plastics Industry
Chillers for Injection and Blow Mold Cooling, Injector Hydraulic Oil.
Bakery & Food
Chillers for: Pasteurization of dairy products, beverages, water, sausages, poultry in slaughterhouses, cooling vegetables for packaging and transportation. ice factories. Tequila distillation, must cooling.
Wine Industry
Ecochillers® designs, builds, and distributes chiller systems directly to the wine making industry.
Medic Industry
Magnetic Resonance Imaging, MRI, CT, Chemical Labs. The most reliable chillers in the medical industry through its cooling solutions.
Heat Recovery
Heat Recovery systems are those that provide Cooling and Heating at the same time, which are developed for better sustainability in the energy field.
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Thermal load calculation
For process cooling
The calculation of the thermal load or capacity of the Chiller is based on:
- The water flow in liters per hour
- The desired inlet process temperature
- The process outlet temperature
Calculation based on kilograms or liters of product:
- Amount of product to be cooled per amount of time, kilograms per hour, gallons per minute or liters per minute,
- Product inlet and outlet temperature in degrees Fahrenheit or Celsius.
- Specific heat of the product
Thermal load Air Conditioning
Calculation based on heat load:
The selection of a chiller is based on ARI conditions and usually designers calculate 45oF at the chiller outlet and 55oF at the chiller inlet, considering these parameters the water flow per minute per ton of cooling is 2.4 gallons per minute.
- Thermal Load: (enter thermal load)
- Chiller Inlet Temperature: (enter return temperature)
- Process Outlet Temperature: (enter the outlet temperature)
Knowing the water flow
| Flow | 30,000 liters of water per hour | 132.2751 gpm |
| Flow | 30,000 liters per hour 30,000.00 approximate | |
| liters of water = Thermal Load per Machine Kilograms per hour: | 30,000.00 | |
| T1 | Inlet temperature: | 18.00 °C |
| T2 | Output temperature: | 10.00 °C |
| DT | Temperature differential | 8.00 °C |
| CP | Thickness of Product Heat | 1.00 °C |
| QT | Thermal Load per Hour | |
| QT | Product Weight x DT (temperature differential) x CP | |
| Considering 3024 calories per ton of refrigeration Qt = FLOW lts. X 5.5 oC 3024 cal QT= | < 79.3651 Tr of Process |