SU1130535A1 - Electrical coagulation apparatus - Google Patents

Abstract

ELECTRO-COATURE GUN for cleaning waste water, comprising a housing, water inlet and outlet nozzles, an aiod and a cathode made in the form of discs mounted coaxially with an inlet nozzle with the aiod made with a hole in the center and rigidly fixed in the housing, and the cathode is rotatably mounted on the shaft and provided with a fairing and scrapers, characterized in that, in order to reduce energy consumption during the treatment of wastewater containing passivating ions, the shaft is hollow and connected to an electrolyte supply device, the cathode has a radial groove There are scrapers that are U-shaped in cross section, and have hollow perforated tubes connected to the shaft cavity, which are fixed in this way, and their lower edge is 5 9 sec flush with the lower flat surface (L cathode co

Description

one

The invention relates to devices for the electrochemical treatment of waste or driven water and can be used to purify waste water from heavy metal ions, including hexavalent chromium.

A known electrolyzer for wastewater treatment, including a tank with vertical partitions, a horizontally disposed cathode, an anode vertically located above the cathode, made in the form of alternating steel and graphite plates, a waste water supply device disposed above the anode, and an electrolyte inlet device located under cadot ij.

The disadvantage of this device is a significant energy consumption, due to the performance of the anode in the form of plates, in which sheet steel serves as an electrochemically soluble electro-ion. As

dissolving the anode, the distance between it and the cathode increases, which leads to an increase in the power consumption for wastewater treatment. The disadvantage of this device is also a significant consumption of electrolyte, which, when operating the device, must fill the electrode chamber above the level of the set of electrodes.

The closest to the invention in terms of its essence and the achieved result is an electrocoagulator comprising an anode and a cathode made in the form of discs mounted coaxially with a sewage supply nozzle, the anode being made with a hole in the center and rigidly fixed in the housing, and the cathode is installed with rotation and provided with a fairing and scrapers 2J.

A disadvantage of the known device is the passivation of the anode; made of steel casting, in wastewater treatment, containing passivating ions, for example, in wastewater treatment from hexavalent chromium. This forces several times to increase the intensity of rotation of the cathode in order to remove the passive film from the anode by means of scrapers, which leads to excessive energy consumption and rapid wear of the scrapers.

The aim of the invention is to reduce energy consumption during cleaning of waste water.

water containing passivating ions by eliminating passivation of the anode.

This goal is achieved by the fact that in an electrocoagulator comprising a housing, water inlet and outlet nozzles, an anode and cathode made in the form of discs mounted coaxially with an inlet nozzle, the anode is provided with a hole in the center and rigidly fixed in the housing, and the cathode is mounted rotatably on the shaft and provided with a fairing and scrapers, the shaft is hollow and connected to an electrolyte supply device, the cathode has radial grooves in which the scrapers are located, having a U-shaped cross-section in which the fields are perforated tubes connected to the shaft cavity, fixed in such a way that their lower edge is flush with the lower plane of the cathode.

FIG. 1 shows the proposed electrocoagulant; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. one,

The electrocoagulator consists of a body in which the anode 1 is rigidly fastened, made in the form of a disk with a hole 2 in the center. Coaxial to the anode

The hollow shaft 3 is rotatably mounted with a disk cathode 4 with a fairing 5, the cathode 4 is made with radial slots, in

which are installed scrapers-6 P-about a different cross-section. Inside the scrapers 6 there are hollow perforated tubes 7 connected to

 hollow shaft 3 by means of flexible hoses 8. Hollow perforated tubes 7 behind; they are fixed in such a way that their bottom edge with holes 9 is flush with the bottom plane 10 of the cathode 4. The source water flows through pipe 11 located coaxially with the anode 1. and cathode 4.

Electrocoagulor works only

blowing way.

Source water through the pipe

I1 feed and hole 2 in the anode 1 enters the gap 12 between the anode

I and the cathode 4. At the same time, an electrolyte (for example, a 0.15% hydrochloric acid solution) is fed into the cavity 5 I3 of the shaft 3, which through the hole 14 enters the flexible hoses 8

into hollow perforated tubes 7, which are also cathodes. From the tube 7, through the holes 9. the electrolyte is introduced into the electrolysis cell 15 formed by a U-shaped scraper 6 and the anode 1 ,. which in-result the rotation of the cathode 4 moves along the anode, preventing the "formation of a passive film on it.

To prevent the rapid leaching of electrolyte from the electrolysis cell 15, the scrapers 6 on one side have protrusions 16 which enter the hole 2 of the anode 1 and serve as a divider for the jet of the other side are plugged. At the same time, the initial water does not enter the cell 15, and the electrolyte gradually through the micro-gaps between the scrapers 6 and A. Dodon 1 enters the gap 12, where it mixes with the treated water. For removal of electrolytic gases formed in cell 15, a channel 17 is provided in the scrapers 6,

At the same time, the amount of electrolyte supplied. In the proposed device, it does not depend on the ratio of ions caused by contamination of wastewater.

X1-D

water, and is determined by other factors, such as the size of the electrodes, the size of the interelectrode space, the rotational speed of the cathode, etc. Therefore, the electrolyte consumption is small, which contributes to a decrease in the specific cost of wastewater treatment and reduces the salt content

In the proposed electrocoagulant, the passivation of the anode is completely eliminated during the treatment of wastewater containing hexavalent chromium or other compounds with a strong passivating effect. Due to the prolonged stay of the electrolyte in the electrolysis cell 15, its consumption is insignificant, and is several hundred times less than the consumption of purified water.

The use of the proposed electrocoagulant reduces by 15–20% the electric power consumption during the purification of waters containing compounds with a strong passivating effect, thus expanding the range of application of the electrocoagulant while ensuring a high degree of purification.

bv

FIG. 2

Fig.Z

Claims (1)

ELECTROCOAGULATOR for wastewater treatment, comprising a housing, water inlet and outlet nozzles, an anode and a cathode made in the form of disks installed by a coaxial water inlet nozzle, wherein the anode is made with a hole in the center and is rigidly mounted in the housing, and the cathode is rotatably mounted and equipped with a fairing and scrapers, characterized in that, in order to reduce energy consumption during the treatment of wastewater containing passivating ions, the shaft is hollow and connected to an electrolyte supply device, the cathode has radial grooves in which s has scrapers having a cross-sectional U-shape, which has a hollow perforated tube connected to the hollow shaft, mounted so 4to their lower edge is flush with the bottom of the cathode plane. SU. „. 1130535