When installing the air cooler, it is necessary to ensure its horizontal position.

Filters are divided into three classes according to their effectiveness. Class I filters trap dust particles of all sizes (the cleaning coefficient is not less than 0.99), Class II filters – particles of more than 1 micron (cleaning coefficient is more than 0.85), class III filters – particles of more than 10–50 microns (cleaning coefficient is not less than 0.60).

The noise level generated by ventilation systems is an essential criterion of ventilation quality. The sources of noise in ventilation installations are fans and electric motors, as well as the movement of air in the ducts and its exit from the holes. Two types of noise are considered: aerodynamic and mechanical.

The reasons for the appearance of aerodynamic noise in fans are: the formation of vortices and their periodic disruption from the blades of the impeller, local air flows at the entrance to the wheel and at the exit from it, leading to unsteady flow around the blades of the wheel, perturbation of the medium by rotating blades. Mechanical noise occurs in bearings, in the drive, in the installation sites (fasteners) of the ventilation unit on building structures, etc. The degree of noise increases with insufficient balancing of the fan impeller.

Of all the sources of noise generation, the dominant ones are fans that create aerodynamic noise. The noise generated by the ventilation system can be reduced by the following measures: installation of fans with the most advanced acoustic characteristics, in particular, fans with blades bent backwards; the choice of fans with the highest efficiency (not less than 0.9 of the maximum), with a minimum angular velocity of the impeller (not higher than 30 m/s), i.e. fans with a small diameter of the impeller and a small number of revolutions (at the same time, you should not overestimate the pressure against the calculated one, since this causes an increase in noise level); careful balancing of the impeller.

Noise reduction along the path of its propagation is achieved by limiting the speed of air movement in the ducts or lining the inner surfaces of the ducts with a sound-proofing material.

In order to reduce the transmission of fan vibration to the ducts, the latter must be connected to the fan nozzles using soft inserts made of rubber, rubberized tarpaulin.

Vibration noise reduction is achieved by installing ventilation units on vibration isolators. Standard designs of spring and rubber vibration isolators are used (Fig. 13).

Fig. 13. Vibration Isolator

With the number of revolutions of the impeller up to 1800 rpm, it is recommended to use spring vibration isolators, characterized by stability of elastic properties, allowing large deflection and weakening vibrations even at very low frequencies. With large numbers of revolutions, the use of rubber vibration isolators is allowed.

In order to reduce the transmission of vibration to the structure of the building, fans should be mounted on their own concrete foundations on the ground. In the case of installation of ventilation units on the load-bearing structures of buildings, the plates or beams on which they are located must be mounted on vibration-absorbing supports.

The reduction of the noise level transmitted from the ventilation chamber to adjacent rooms is achieved by the installation of fences around it from structures with increased sound absorption, as well as the use of sound-absorbing linings in chambers and rooms. In ventilation chambers, it is possible to arrange "floating" floors consisting of layers of fiberglass plates, soundproof strips, etc.