RU2683761C1 - Aerator - Google Patents

Abstract

FIELD: water treatment.SUBSTANCE: aerator contains perforated membrane 1 and pressure pipe 2. Surface of membrane 1 is made corrugated with aeration holes on the upper protrusions of the corrugations and lower holes for removal of deposited contaminants in which inclined elongated walls 3 are formed in a lower part of the folds of corrugated membrane 1. Pressure pipe 2 is made with the possibility of supplying air to the aeration holes.EFFECT: invention allows to increase the degree of wastewater treatment.1 cl, 1 dwg

Description

The invention relates to aerators for wastewater treatment, in particular to devices for supplying air to treatment plants (flotators, pre-aerators). The invention can be used in the field of domestic and industrial wastewater treatment, in the fishing, food industry, for example, in wastewater treatment of a meat factory.

Currently, most urban wastewater treatment plants and local treatment plants of industrial enterprises are equipped with outdated and low-efficient systems based on perforated pipes or unreliable in operation and inconvenient from the point of view of mounting filter plates. These aerators are characterized by overgrowth and, as a consequence, an ever-increasing consumption of electricity to overcome resistance when air is supplied to overgrown aerators. The increased level of requirements for the quality of wastewater treatment and the economic efficiency of wastewater treatment plants required the development of aerators capable of guaranteeing reliable operation under various aeration conditions for a long time.

Known disk aerator related to devices for aerating liquids (patent RU 2211189 from 08.27.2003; C02F 3/20, C02F 3/20, C02F 101: 00, C02F 103: 04), adopted for the prototype, containing a polymer casing with G- a perforated rubber membrane with a L-shaped inner ring groove commensurate with an annular L-shaped protrusion of the body, and oriented inwardly with rubber fixing spikes with a thickening at the end, made in one piece with a rubber membrane coaxial and litter dimensioned with slotted grooves of the housing, as well as with a U-shaped external groove commensurate with the height of the clamping clamp.

The disadvantage of this device is the insufficient degree of wastewater treatment due to overgrowth of the aerator from contaminants deposited on its surface and the possibility of returning settled contaminants to the treated wastewater.

The objective of the invention is to increase the degree of wastewater treatment when using an aerator, due to the use of a corrugated perforated membrane with holes of two types in the aerator: aeration holes and holes for the removal of sediment.

The problem is solved by the fact that the aerator contains a perforated membrane, and additionally contains a pressure pipe. The surface of the aerator membrane is corrugated with aeration holes on the upper protrusions of the corrugations and lower holes for removing sedimentary contaminants, in which inclined elongated walls are formed in the folds of the corrugated membrane in the lower part. The pressure pipe is configured to supply air to the aeration holes.

The proposed design of the aerator differs from the prototype in that the aerator membrane is perforated and corrugated so that, during operation of the aerator, contaminants slide (slip) into the lower holes, firstly, without causing overgrowth of the aeration upper holes, and secondly, appears the ability to remove substances that have not settled on the surface of the aerator from the liquid being cleaned into the sediment collection part of the treatment plant.

In FIG. 1 shows a General view of the aerator, where:

1. Corrugated perforated membrane;

2. Pressure pipeline;

3. Inclined elongated wall in the folds of the corrugation.

The aerator works as follows.

The aerator is located below the water level, inside the tank with the liquid to be cleaned, in its bottom part. The liquid to be cleaned is located above the aerator. Air is supplied and distributed through pressure pipe 2 with further air distribution under the upper protrusions of the corrugated perforated membrane 1. Air bubbles pass through the holes on the protrusions of the corrugated perforated membrane 1. As air bubbles rise and the flotation of contaminants, waste water is purified. Contaminants not involved in the rising water-air flow are deposited on the surface of the corrugated perforated membrane, and under the influence of gravity slide along inclined elongated walls 3, overlapping in the vertical plane of the opening of the corrugation cavity. The elongated inclined walls 3 of the corrugated perforated membrane allow the settling sediment to bypass the zone of turbulence that arises from the movement of air and fall into the sediment collection part of the treatment plant, without leading to repeated involvement in the treated wastewater.

Thus, the proposed aerator gives a stable (long time) result in saturating the aerated liquid with air over the entire aeration area, since its surface does not overgrow with settling contaminants.

Claims (1)

An aerator containing a perforated membrane, characterized in that it further comprises a pressure pipe, the surface of the membrane is corrugated with aeration holes on the upper protrusions of the corrugations and lower holes for removing sediment, in which inclined elongated walls are formed in the folds of the corrugated membrane, and the pressure pipe is configured to supply air to the aeration holes.

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