RU90067U1 - ELECTROCHEMICAL WATER TREATMENT DEVICE - Google Patents

Abstract

A device for electrochemical water treatment, including a block for electrochemical water treatment, comprising a housing with an inlet funnel with a ring magnet, inside of which is a set of soluble electrodes connected to a power source, the housing of the electrical processing unit is equipped with a fitting for water outlet and a fine filter, the input fitting of which is connected to output fitting of the electric processing housing, characterized in that in the electric processing unit, the soluble electrodes are made of one anode-soluble material ala below sets soluble electrodes placed additional set of insoluble electrodes, discharge nozzle output water located below insoluble electrodes in the upper part of the block electroprocessing coaxially housing unit located Skimmer with fitting foam retraction Skimmer separated from the body unit movable damper having the possibility of vertical movement.

Description

The utility model relates to the field of water treatment for the purpose of conditioning it and can be used to obtain high-quality drinking water from underground, surface sources and water supply networks.

A device for electrochemical purification of drinking water, containing a power source, a reactor vessel with a packet of soluble electrodes (anodes) located in it, a filter vessel with a filter element and a reverse cone with a vertical handle with the ability to move vertically and designed to remove the foam formed during the cleaning process . The device is equipped with a filling funnel at the output of which a permanent ring magnet with a magnetic field strength of 500 to 1,500 Oersteds is fixed. (Certificate on PM RU 36824 U1 C02F 1/46).

The disadvantages of this device include:

Inefficient way to remove foam. Immersion in the foam layer of the inverse cone partially destroys the foam, accompanied by the destruction of coagulation agglomerates and the return of removed contaminants to the water, which reduces the duration of the filter cycle at the stage of water purification and the quality of cleaning in the last period of its operation before washing.

In the set of working electrodes, only the anode electrodes are electrochemically soluble and the cathodes are made of electrochemically inactive material, for example, stainless steel, which determines the effective life of the device before replacing the electrodes.

The task to solve which the development of a utility model is directed is to create a reliable and efficient device for electrochemical water treatment.

The technical result is to increase the service life of the device and the efficiency of the removal of sludge in the process of water treatment, which improves the reliability and efficiency of water treatment.

The electrochemical water treatment device includes an electrochemical water treatment unit, comprising a housing with an inlet funnel with an annular magnet. Inside the housing is a set of soluble electrodes connected to a power source, the body of the electric processing unit is equipped with a fitting for water outlet and a fine filter, the input fitting of which is connected to the output fitting of the electric processing case. In the electric processing unit, the soluble electrodes are made of one anodically soluble material, an additional set of insoluble electrodes is placed below the set of soluble electrodes, the outlet nozzle for water outlet is located below the insoluble electrodes, in the upper part of the electric processing block there is a foam collector with a foam outlet fitting, the foam collector is separated from the block body with a movable gate having the ability to move vertically.

Types of the main elements of the inventive installation are presented in figure 1.

The main elements of the utility model are:

electric processing unit: 1 - case, 2 - set of soluble electrodes, 3 - set of insoluble electrodes, 4 - power supply, 5 - foam collector, 6 - gate, 7 - foam discharge nozzle, 8 - outlet nozzle, 9 - filter, 10 - collector purified water, 11 - sealing gasket; 12 - funnel, 13 - ring magnet.

In Fig.1A shows the node, where 1 is the housing, 5 is the foam collector, 6 is the gate, 11 is the sealing gasket.

The device operates as follows.

The separation gate (6) is installed in the upper position. The purified water through the funnel (12) with an annular magnet (13) is poured into the electric processing unit (1). Soluble electrodes (2) made, for example, of aluminum from a power source (4) are supplied with an operating voltage that allows periodic polarity reversal of working soluble electrodes. Under the influence of electric current, the anodes dissolve, forming flakes of hydroxides, on which finely dispersed impurities, organic substances of natural and technogenic origin, microorganisms, heavy metal ions and other polluting components are adsorbed. By the flow of gas released at the counter electrode, the flakes rise into the foam collector (5), forming a foam. Periodic polarity reversal of the working electrodes allows uniform dissolution of all the electrodes of the working set, which provides an increase in the life of the device compared to the prototype by 50% due to an increase in the mass of soluble material.

After introducing the required dose of coagulant into the water, the current source automatically switches the power from the block of soluble electrodes to the block of insoluble electrodes (3) made, for example, of stainless steel. Under the influence of an electric current, finely dispersed gas bubbles are released on the electrodes, which, rising through the layer of treated water, form a foam with flakes of hydroxides formed during the operation of soluble electrodes. The foam from the work of the block of insoluble electrodes in the upper part of the block of electric processing is mixed with the foam formed during the work of soluble electrodes, increasing the degree of purification of the treated water from flakes of coagulant and fine impurities.

After treating the water with insoluble electrodes, lower the gate (6) to the lower position. In this case, a layer of foam formed on the surface of the water flows into the foam collector (5) without mechanical destruction and is discharged to the discharge through the outlet fitting (7). In this way, sludge removal efficiency is ensured.

After removal of the foam, the power to the insoluble electrodes is turned off.

Water passing through the electric processing unit is discharged from the electric processing housing (1) through the outlet fitting (8) located below the level of placement of insoluble electrodes.

The outlet fitting of the electric processing unit (8) is connected to the inlet fitting of a filter containing a filtering impregnated with silver impregnation to ensure material protection of the treated water. The outlet fitting of the filter is connected to the inlet of the receiver of the pure water storage device. Processing on the filter completely purifies water from fine and dissolved impurities.

The installation is equipped with an automated control system.

After emptying the electric processing unit, the process is repeated with the next portion of the source water.

Claims (1)

A device for electrochemical water treatment, including an electrochemical water treatment unit, comprising a housing with an inlet funnel with a ring magnet, inside of which there is a set of soluble electrodes connected to a power source, the housing of the electrical processing unit is equipped with a fitting for water outlet and a fine filter, the input fitting of which is connected to output fitting of the electric processing housing, characterized in that in the electric processing unit, the soluble electrodes are made of one anode-soluble material ala below sets soluble electrodes placed additional set of insoluble electrodes, discharge nozzle output water located below insoluble electrodes in the upper part of the block electroprocessing coaxially housing unit located Skimmer with fitting foam retraction Skimmer separated from the body unit movable damper having the possibility of vertical movement.