EXCEPTIONAL PERFORMANCE: Temprite's 900 Series coalescent oil separators set the industry standard for energy-efficient performance. The 900 Series is designed for original equipment manufacturer applications where cleanliness specifications may be audited. Unlike conventional separators, 900 Series units are not dependent on velocity for efficiency.
- Coalescent oil separators maintain the same level of effectiveness down to 20% of maximum flow.
MONEY-SAVING ENERGY EFFICIENCY: The high-efficiency performance of the 900 Series reduces energy consumption, lowering costs and decreasing carbon emissions. Higher efficiency means better heat transfer through the coils, translating into significant kW savings. Temprite's 900 Series delivers the:
- Highest measured capacity of refrigeration.
- Lowest kilowatts required per unit of cooling (per ton).
UNIQUE FILTERING SYSTEM: All Temprite coalescent oil separators are equipped with the Temprite Standard Filter. The Standard Filter uses a matrix-type borosilicate glass fiber material to do the work formerly done by impingement screens in conventional oil separators. The filter’s borosilicate fiber matrix causes the aerosolized oil to vibrate and collide with other oil molecules, creating bigger oil droplets. As the oil droplets are pushed to the outer edges of the filter by refrigerant flow, the accumulated droplets fall to the bottom of the separator through gravitational setting.
EXCEPTIONAL CONTAMINANT REMOVAL: Two of the biggest energy drains on any refrigeration system are dirt and contaminants and excess refrigerant oil. In addition, the new refrigerants coming onto the market have an enhanced solvent effect, meaning more contaminants than ever can be clogging your system.
- Because the Temprite Standard Filter is finer than any other filter/drier, it will pick up all effluent and dirt in the system down to 0.3 microns in size.
MINIMIZE BURNOUT EFFECTS: Another advantage of the 900 Series is that, should the compressor burnout, all effluent is localized in the separator, sparing delicate metering devices from a rush of carbonized particles.