SU1191428A1 - Aerator - Google Patents

Abstract

AERATOR containing impeller mounted on a hollow shaft and in a fixed housing with blades, a drive with a base plate, water and air supply units, in order to increase. Intensity of aeration due to increased cavitation, it is equipped with cavitation teeth attached by bases to the side surface of the impeller, holes are located in the side surface of the stationary body, located between the tips of the teeth, which are secured in the direction opposite to the direction of rotation of the impeller. (L

Description

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X) The invention relates to a device for dissolving gases in a liquid, namely oxygen-in-water, l can be used to aerate sewage during their biological treatment. The purpose of the invention is to increase the aeration intensity due to cavitation. .In FIG. 1 depicts the proposed aerator, a side view of j. 2 — a working wheel of the aerator, longitudinal pa3pe3i in FIG. 3- section A-A in FIG. 2. The aerator contains a stationary body 1. consisting of the top 2 and bottom 3 caps, side surface 4 with holes 5, impeller 6 with top 7 and bottom 8 covers, side surface 9 with holes 10, cavitations. mi 11 ,. fixed on the side surface 9, the blades 12. The non-movable case 1 has an inlet side 13 for the water abrasion. The working box 6 is connected to the hollow shaft and the stationary case 1 is connected to the housing between the glands 16. The housing 15 is welded to the front disc 1 7 from above, adjacent to the electric motor 18 through the base plate 19 by means of bolts 20. The shaft 21 of the electric motor 18 is connected to the hollow shaft 14 and brings it together with the impeller 6 into rotational motion. For the air intake, a bent air intake pipe 22 is provided, which is welded to the casing 15 in the zone of longitudinal holes 2.3 on the hollow shaft 14. The aerator contains a cavitation chamber 24 placed between the side surfaces 4 and 9 of the fixed housing 1 and the impeller 6, and the periphery blades 12 and the side surface 9 of the impeller 6 forms an acute angle 25, which provides the greatest compression and preparation1 for the water-emulsion mixture. The aerator works as follows. When starting the electric motor 18, the hollow shaft 14 and the impeller 6 receive rotational motion. impeller 6 is drawn in air. The mixture of sucked water and air is transported to an acute angle of 25, formed by the peripheral part of the blades 12 and the side surface 9 of the impeller 6, where it receives the greatest compression. Then, through the holes 10, the mixture is pushed into the cavitation chamber 24, subjected to pre-cavitation from the effects of cavitation teeth 11. Air bubbles are crushed. The emulsion mix has a hole; 5 holes located on the side surface 4 of the fixed housing 1, the tip of the cavitation teeth 11 are pushed out of the aerator to the periphery, which creates hydrodynamic radiation around the aerator in the mode of acoustic oscillations. The pulsation of air bubbles in an intense sound wave causes them to be broken up into smaller ones than a high degree of cavitation is achieved, and at the same time an intensive enrichment of the treated waste water with oxygen.

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Claims (1)

AERATOR, comprising an impeller with vanes mounted on a hollow shaft and in a fixed housing, a drive with a base plate, water and air supply units, so that in order to increase the aeration intensity due to the enhancement of cavitation, it is equipped with cavitation teeth attached with bases to the side surface of the impeller, holes are located in the side surface of the stationary housing located between the tops of the teeth, which are offset in the direction opposite to the direction of rotation of the impeller. > 1 1191428