Frigid-X™ Cabinet Panel Coolers NEMA Type 12 for Electronic Control Panels for General use in industrial environments where no direct liquid spray is applied to the unit. Stainless steel construction to hold up in corrosive environments.
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NEMA Type 12 Cabinet Panel Coolers - Frigid-X™ series are compact and can be installed in minutes through a standard electrical knockout. There are virtually no moving parts. NEMA Type 12 Cabinet Panel Coolers - Frigid-X™ series are ideal for all NEMA Type 12 rated panels.
Filtered, compressed air enters the Cabinet Panel Coolers and through the vortex tube component. The air is split into into two streams, one hot and one cold. The muffled hot air from the vortex tube is expelled through the top of the air conditioner. The cold air is directed into the enclosure through the cold air distribution hose. Hot air inside the enclosure rises and exits to atmosphere via the air exhaust at a slight positive pressure. The enclosure is both purged and cooled with clean air. No outside air enters the enclosure.
Frigid-X™ Panel Cooler
Compressed air enters at point (A) into the vortex tube component of the panel cooler. The vortex tube splits the compressed air into a hot (B) and cold (C) stream of air. The hot air from the vortex tube is vented to the atmosphere at point (D) after being muffled to reduce noise. Hot air displaced from inside the control panel or cabinet is exhausted through point (E). Cold air enters into the panel (F) via the cold distribution hose (G). Holes (H) are punched into the hose kit to deliver the cold air inside the panel where required. A muffler (I) further reduces the noise level of the exhausting air.
Contact Nex Flow™ for assistance in sizing Cabinet Panel Coolers - Frigid-X™ series.
*Cooling effect based on 95 degrees temperature inside cabinet, 100 PSIG (6.9 BAR) compressor inlet pressure, and 70ºF (21ºC) inlet temperature. All Continuous Operation models include the cooling unit, filter with auto drain and cold air distribution kit.
NEMA Type 12 Cabinet Panel Coolers - Frigid-X™ - Selection: Cabinet Panel Coolers come with a 5 micron filter with an automatic drain for the compressed air supply to insure clean, dry air and an air distribution kit to circulate the cold air inside the enclosure for even cooling. Cabinet Panel Coolers are available with or without thermostat control. When constant cooling and a constant positive purge is required we recommend the continuous operating version without the thermostat and solenoid valve. The cooling effect can be controlled by adding a regulator in line to reduce pressure for reduced cooling when it is not required and to conserve energy. Systems utilizing a thermostat and solenoid valve saves air by activating the air conditioner only when the internal temperature reaches a critical level. The adjustable thermostat is factory set at 95°F but can be readjusted on site. Thermostat and solenoid valve systems are recommended where the heat load can fluctuate (such as for frequency drives) and where a continual purge is not required. The thermostat and solenoid "package" can also be added at a later date to a continuous system. NEMA Type 12 Cabinet Panel Coolers - Frigid-X™ - Applications:
Total heat load consists of the heat transfer from outside your panel and from the heat dissipated inside the control unit.
1 BTU/hr = 0.293 watts
4" fan: 100 CFM (2832 LPM) BTU/hr. cooling effect from fan 1.08 x (temp. inside panel in ºF - temp. outside panel in degrees F) x CFM Watts cooling effect from fan: 0.16 x (temp. inside panel in ºC - temp. outside panel in degrees C) x LPM
1. Determine the heat generated inside the enclosure. Approximations may be necessary. For example, if you know the power generated inside the unit, assume 10% of the energy is dissipated as heat. 2. For heat transfer from the outside, calculate the area exposed to the atmosphere except for the top of the control panel. 3. Choose the internal temperature you wish to have, and choose the temperature difference between it an the maximum external temperature expected. 4. From the conversion table that follows, determine the BTU/hr. per square foot (or watts per square meter) for the temperature difference. 5. Multiply the panel surface area times the BTU/hr. per square foot (or watts per square meter) to get the external heat transfer in BTU/hr or in watts. 6. Sum the internal and external heat loads calculated. 7. If you do not know the power used in the enclosure but you can measure temperatures, then measure the temperature difference between the outside at current temperature, and the present internal cabinet temperature. 8. Note size and number of any external fans. Provide this information to Nex Flow™ to assist in sizing the appropriate cooling system.
The control panel has two frequency drives totaling 10 horsepower and one module rated at 100 watts. The maximum outside temperature expected is 105ºF or 40.5ºC. The area of the control panel exposed sides, except for the top is 42 square feet or 3.9 square meters. We want the internal temperature to be 95ºF or 35ºC. Total internal power is 10 hp x 746 watts/hp - 7460 plus 100 watts = 7560 watts. Or Total internal power is 10 hp x 2544 BTU/hp = 25440 BTU/hr plus 100 watts x 3.415 BTU/hr/watt = 25782 BTU/hr. Assume 10% forms heat = an internal heat load of 2578 BTU/hr. External heat load: The temperature difference between the desired temperature and the outside is 10ºF or 5.5ºC. Using the conversions (and interpolating where necessary) we multiply the area by the conversion factor: 42 sq. ft x 3.3 - 139 BTU/hr or 3.9 sq. m x 10.3 = 40 watts Total Heat Load: 756 + 40 - 796 watts or 2578 + 139 - 2717 BTU/hr. You would use a Model 61040 for constant operation or a Model 63040 for one-off control. (Rated at 2900 BTU/hr or 849 watts). |
NEMA
Type 12 Cabinet Panel Coolers - Frigid-X™ series for electronic control panels are UL Component Recognized and provide a low cost method of both purging and cooling electrical and electronic control panels by using
a stainless steel vortex tube to create cold air from ordinary compressed air.
