SU1416445A1 - Method of cleaning electrodes of electric coagulator - Google Patents

Abstract

The invention relates to the field of purification of natural and waste waters and can be used in water treatment and water supply systems when cleaning electrodes of an electrocoagulant in a process of purifying waste waters. The change in the polarity of the electrodes is carried out 15–20 s before mechanical cleaning and the voltage on the electrodes during repolarization increases by 5–7.5. The method allows to increase the degree of cleaning of electrodes and reduce the cost of electricity for cleaning due to the fact that the preliminary reversal of electrodes leads to the destruction of the passive film on the electrode, reducing its adhesion to the surface and thus provides ease of mechanical cleaning, reducing energy costs for its implementation and high S degree of cleaning electrodes. 1 Cp. - f-ly, 1 tab. (L

Description

eleven

; This invention relates to the field of

: PURIFICATION OF NATURAL AND WASTEWATER AND

: can be used in water treatment and water supply systems.

The purpose of the invention is to increase the degree of purification and reduce energy consumption for cleaning electrodes of electrocoagulators.

The method of cleaning electrocoagula electrodes in the process of cleaning waste WATU is carried out as follows;

I After the current density on the electrodes of the coagulant drops, hold down the electrodes 15–20 s before mechanical cleaning. The voltage on the electrodes during re-luvovki increase by 5.0-7.5%, Essential to achieve this goal is the sequence; operations. Preliminary, before the me; cleanup, reversal. The electrodes can destroy the passive film and reduce its adhesion to the surface of the electrodes. The layer of a passive film becomes loose and easily removed from the surface of the electro-: DOW5, thereby ensuring a complete removal of contaminants and stable operation of the electrocoagulant during the water purification process.

Example 1, 15 seconds before the mechanical cleaning of the electrodes, the polarity of the electrodes is changed and gradually increased (6m voltage by 5-7.5%. Then mechanical cleaning is performed, after which the voltage is reduced to its original value. As a result, the operating voltage the electrodes are practically not reduced, and the current density remains constant, which significantly reduces the power consumption of the electrode cleaning process.

Example 2. 20 seconds prior to mechanical cleaning of the electrodes, the polarity of the electrodes is changed and the voltage is gradually increased by 5

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7.5%. Then mechanical cleaning is performed, after which the voltage is reduced to the initial value.

As a result, complete destruction of contaminants on the surface of the electrodes is achieved, which leads to the constancy of the operating voltage and current density and allows to reduce to a minimum

energy intensity of the electrode cleaning process,

The table shows data on the effect of the length of the pause between

polarity reversal of electrodes and their mechanical cleaning by the amount of current density on the electrodes after their cleaning. The initial current density in all cases is 200 A / m,

An increase in the voltage on the electrodes by 5-7.5% after polarity reversal leads to a proportional increase

current density. Such an increase in current density allows for 15–20 s.

to achieve complete destruction of the soil layer on the electrodes, which ensures complete removal of soil from the surface of the electrodes,

The proposed method allows

to increase the degree of cleaning of the electrodes and to reduce the cost of electricity by 20%.

Claims (1)

Invention Formula 1, A method for cleaning electrocoagulant electrodes in a wastewater treatment process, including mechanical cleaning and changing the polarity of electrodes, characterized in that, in order to increase the degree of cleaning of the electrodes and reduce the energy consumption for cleaning, the polarity of the electrodes is changed 15-20 seconds before mechanical cleaning, 2, the method according to claim 1, characterized in that when the polarity is changed, the voltage on the electrodes is increased by 5-7.5%.