There’s no defined layout for factories. They assume large open spaces or chop up the area into chambers and cubicles. Airflow is either free to circulate or constricted by ranks of machinery. In selecting optimal evaporative coolers for factory cooling, a buyer should enter the market with the realization that generic products may not make the cut. For example, a facility that’s defined by narrow corridors and claustrophobic passages is the ideal setting for a ducted solution, a high-capacity evaporative system that integrates into an overhead duct network. A portable unit would be of little use in this scenario, as the airflow has to be funneled through a prefabricated series of channels and room vents.
Filling in Buying Guide Details
As much as the layout will impact the selection of a quality cooler, so will the field of operation. Define application intent so that the power and output of the device can be estimated. Personnel productivity will naturally benefit from choosing a model that cools ambient temperatures enough to sharpen work yield, but this single operational specification doesn’t account for the heat generated by machinery. A factory is a dynamic environment, a place that contains numerous heat sources. Is the area ventilated? Ventilation will keep machinery and people cool, making the job of evaporative coolers for factory cooling that much easier. Incidentally, remember that moisture can be an asset or a hindrance within different environmental conditions. Typically viewed as beneficial within factories, the cooler injects moisture into the air and dramatically reduces smoke and other pollutants.
High Capacity Heroes
Impressive proportions make all the difference when selecting evaporative coolers for factory cooling purposes. Keep maintenance low and factory profits high by selecting a reputable brand, a manufacturer who is known for producing popular industrial coolers. These models should offer low maintenance options, superior water distribution mechanisms, and a choice of water pumping and airflow propelling alternatives. Axial fans, as one example, are preferred for industrial applications, as their blades are designed, long or short, to push large volumes of air. Conversely, a cylindrical fan profile, sometimes referred to as a centrifugal fan, runs silent and keeps air moving efficiently to its target.
Finally, take a look at the label attached to the unit and an even closer look at the sales literature. Memorize the area of coverage the unit matches, the size of the water tank in gallons or litres, and write down the CFM rating (Cubic Feet per Minute), a figure that will provide an engineer-derived guide to how much fresh air can be cycled through the space in any given minute. Add this data to your layout to create a shortlist of evaporative coolers, portable, fixed, or ducted variants that fit your requirements.