SU1682325A1 - Decontaminator of wastewater - Google Patents

Abstract

This invention relates to the field of wastewater treatment for various biological and high molecular weight organic compounds. The goal is to increase the efficiency of disinfection. The housing contains concentrically located external and internal electrodes connected to a three-phase current source, separated by a perforated partition into the upper and lower working zones, and a perforated cylinder is installed between the electrodes, the lower working part is made with a perforated bottom; an additional electrode is installed in the zone and under the perforated partition dividing the housing; under the bottom, there is an additional electrode, which, like the internal electrode, is grounded, the external electrode it is executed in the form of three sections divided among themselves by the isolating screens. Sewage water is fed through a loading device in the upper part of the perforated cylinder and passes through its perforations. When a voltage is applied, the discharge occurs in the perforations of the cylinder and partitions due to the presence of heterogeneity of the floor due to convective currents and currents, and the biological component is thus destroyed. To increase the effect of destruction due to the activation of all elementary volumes of wastewater, the upper and lower sections of the external electrode are offset relative to one another by an angle of 60 ° C, and to prevent charge flow and to ensure the safety of the design, the perforated partitions and the cylinder are electrically neutral and erosion resistant material 1 s p. f-crystals, 3 Il. e O 00 You CJ GO ate

Description

The invention relates to wastewater treatment and can be used in many areas of the national economy, the effluent of which contains the biological component: bacteria, high molecular weight compounds, etc.

The purpose of the invention is to increase the efficiency of decontamination by ensuring the destruction of the biological component of wastewater.

FIG. 1 is a schematic side view of the decontaminant; FIG. 2 is section A-A in FIG. 1; on fig.Z - section bb in figure 1

The decontaminator consists of a housing 1, divided by a perforated partition 2 into upper and lower workers

zones, external electrodes 3 and 4, installed in these zones and made each in the form of three separated phase sections, between which are insulating screens 5 and 6, respectively, of a perforated cylinder 7, installed between the inner 8 and outer 3 electrodes, with the lower part of the inner electrode 8, located in the upper working zone, is located under the perforated partition 2, an additional electrode 9 installed under the perforated partition 10, which acts as the bottom of the lower working zone, the current leads 11. Sections of the outer electrode 3 of the upper working area are offset relative to similar sections of the lower working area at an angle of 60 °. In the upper part of the perforated cylinder 7, the loading device 12 is located, and the drainage is carried out through the pipes 13. The internal 8 and additional 9 electrodes are grounded, and the perforated partitions 2 and 10 and the cylinder 7 are made of electrically neutral erosion resistant material (for example, glass). Insulating screens 5 and 6 can be made in the form of radial ribs, overlapping the ends of the sections of the electrodes.

Decontaminating works as follows.

Through the loading device 12, waste water is supplied to the perforated cylinder 7. In this case, three-phase voltage is applied to the sections of electrodes 3 and 4 through the current leads 11, respectively, in phase to each section, and the internal 8 and additional 9 electrodes are grounded. As a result, in the perforations of the cylinder 7, when water jets flow through them, discharges destroy the biological component of water. These discharges also occur in the perforations of the partitions 2 and 10. Discharge of disinfected water is provided through the nozzles 13.

Thus, an increase in the efficiency of disinfection of sewage due to the destruction of the biological component is provided.

FORUMAWLAH AND ISLANDS

Claims (2)

1. A wastewater disinfecting device, comprising a housing and concentrically arranged external electrode made in the form of three sections connected to a three-phase current source and separated by isolating screens, and an internal electrode, characterized in that, in order to increase the efficiency of disinfection, the body is provided with a perforated partition, separating it into upper and lower working zones, in which external electrodes are installed, with the sections of external electrodes located in the upper working zone shifted relative to similar sections of the lower working area at an angle of 60 °, as well as a perforated cylinder installed between the electrodes with a loading device in the upper part, the bottom of the lower working area is perforated and provided with an additional electrode located underneath, the inner and additional electrodes are grounded, and the perforated partitions and cylinder made of electrically neutral and erosion resistant material. 2. Decontamination according to claim 1, characterized in that the insulating screens are made in the form of radial ribs that overlap the ends of the sections of the external electrodes. 1 $ u, 1 5-5 0U8.3