Direct Evaporative
Cooling
Put simply, whenever water is evaporated, heat is absorbed. This basic
principle underlies the design of the MasterCool direct evaporative cooler.
| Direct
Evaporative Cooling Process |
Direct evaporative
cooling exchanges sensible heat for latent heat, and follows upward
along a constant wet-bulb temperature line on the Psychometric
Chart. The result is a dry-bulb temperature of the leaving air
(B) approaching the wet-bulb temperature of the entering
air (A) |
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High Quality Construction
Hot-dipped galvanized steel, welded for maximum strength is combined with
our exclusive POLYBOND® finish that protects the whole system –
cabinet pans, distributor covers, louvers, and all other parts contacting
water. The electro-statically applied polyester-epoxy powder-based coating
is cured at high temperature and is so durable that these models are backed
by the best warranty in the industry.
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Energy Efficient... Environmentally
Friendly
With no compressors or condensers, MasterCool evaporative coolers offer
significant energy savings over mechanical refrigeration units; and, with
no CFC’s, do not contribute to depletion of the ozone layer. Their
air washing effect improves indoor air quality with fresh, filtered air
constantly brought into the cooled space forcing stale air out.
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Comfort Levels
Not only does evaporative cooling lower the temperature in the space to
be cooled, it also lowers the temperature you feel. Rapid air movement
produced by the MasterCool increases skin evaporation which causes you
to feel 3-5° effectively cooler than the temperature read from a thermometer.
Evaporative cooling can provide effective temperatures acceptable in most
commercial/industrial applications throughout the world. |
Typical Applications
The Industrial MasterCool is used for area cooling or spot cooling. In
many areas it can replace or supplement mechanical refrigeration needs
in agricultural, institutional, commercial, and industrial applications.
Applications such as kitchens, laundries, gymnasiums, heat treating areas,
and dry cleaning plants requiring large quantities of fresh air moving
through the building are ideal candidates for evaporative cooling.
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