Seperation at it’s Finest
Temprite Filtration Technology
The Temprite Filters employ a matrix-type borosilicate coalescent filter. These fine glass fibers cause the oil molecules to collide and create bigger droplets, until each is large enough to be forced to the outer drain layer of the filter. The droplets fall to the bottom of the separator and the oil is returned to the compressor. Because the Temprite Standard Filter is finer than any other filter, it picks up all effluent and dirt in the system down to 0.3 microns in size, increasing system efficiency and lowering energy costs.
Common Questions For Liquid Receivers
What types of refrigerants are Temprite products compatible with?
Temprite products are compatible with all major refrigerant types, including both traditional and natural options. This includes: Carbon Dioxide (CO₂ / R-744), Ammonia (NH₃ / R-717), Hydrocarbons (HCs) – such as Propane (R-290), Isobutane (R-600a), and Ethane (R-170), and HFOs and HFC blends – including low-GWP refrigerants.
How do I choose the right oil separator or liquid receiver for my system?
This includes: Carbon Dioxide (CO₂ / R-744), Ammonia (NH₃ / R-717), Hydrocarbons (HCs) – such as Propane (R-290), Isobutane (R-600a), and Ethane (R-170), and HFOs and HFC blends – including low-GWP refrigerants.
What’s the difference between standard and coalescent oil separators?
Temprite products are compatible with all major refrigerant types, including both traditional and natural options.
Do Temprite components work with CO₂ and other natural refrigerants?
This includes: Carbon Dioxide (CO₂ / R-744), Ammonia (NH₃ / R-717), Hydrocarbons (HCs) – such as Propane (R-290), Isobutane (R-600a), and Ethane (R-170), and HFOs and HFC blends – including low-GWP refrigerants.
Who can I contact for help with product sizing or specs?
Temprite products are compatible with all major refrigerant types, including both traditional and natural options.
Are your components energy-efficient and low-GWP compatible?
This includes: Carbon Dioxide (CO₂ / R-744), Ammonia (NH₃ / R-717), Hydrocarbons (HCs) – such as Propane (R-290), Isobutane (R-600a), and Ethane (R-170), and HFOs and HFC blends – including low-GWP refrigerants.