SU1006384A1 - Method for electrolytically purifying effluents - Google Patents

Abstract

A METHOD FOR ELECTROLYTIC CLEANING OF SEWAGE WATER from petroleum products, including water treatment in an electrolyzer with a grid cathode and perforated anode installed along the treated water, and electroflotation, characterized in that, to increase the degree of purification / treatment, the electrolyzer is equipped with an additional anode installed. for the main, maintaining the voltage, the floor between the main anode and the cathode is 100-3000 V / m and the same potentials at the anodes.

Description

The invention relates to the treatment of industrial wastewater from dispersed petroleum products and surfactants.

The known method of sewage treatment in an electrolyzer with soluble electrodes is f 1 3. The disadvantage of the method is that during electrocoagulation only particles larger than 5 microns can be removed.

The closest in technical essence and the achieved effect is a method of purification of waste water from petroleum products and surfactants, including the stage of water treatment in the electrolyzer with installed along the purified water mesh cathode and perforated anode and electroflotation. The purification rate of this method is 2.

The purpose of the invention is to increase the degree of wastewater treatment.

The goal is achieved by the fact that waste water is supplied to the electrolyzer with a grid cathode installed in the course of the water and perforated insoluble anodes, while the field between the cathode and the main anode J06-3000 V / m is maintained at the same potential, the water is directed to the anodes. are on electroflotation.

FIG. 1 shows the device, a general view; in fig. 2 is a section A-A in FIG.

The device consists of a dielectric body 1, inside which the cathode 2 is made of a metal wire and the same anodes 3 and 4 in perforated graphite cylinders. Cathode 2 and. The anodes 3 and f are connected to a DC source 5.

The proposed method is

in the following.

Sewage water containing dispersed petroleum products and surfactants is a stable dispersion system. Such water is not supplied to the purification in gravity settling tanks, and the efficiency of its purification in various types of flotation plants is low. The effect of wastewater treatment can be significantly increased due to coagulation of waste gas. Coagulite is highly technological. It is necessary to introduce it electrically into the purified water using

anodes of iron or aluminum. The hydroxide of iron or aluminum formed from the oxide adsorbs impurities on its surface and is high. density, precipitates. There is a heterocoaguli. However, such a path is associated with a high consumption of metal and significant 4 and energy consumption.

In the proposed device waste

water is proposed to be supplied to a uniform electric field created between cathode 2 and insoluble anode 3 Sfig.i. The globules of petroleum products in the source water are

negatively charged dielectric spheres surrounded by a layer of counter-ions. The total charge of the globule and its ionic atmosphere is close to zero. Surfactant molecules are adsorbed on the surface of the globule, inhibiting the coalescence of the globules and stabilizing the emulsion. In the electric field, the ionic atmosphere is displaced along the electric field lines.

floor towards the cathode. A dipole is formed, moving by the negative pole to the anode by the flow of fluid. Getting into the perforations of the anode, the globules are partially discharged, giving excess negative charges to the external electrical circuit. This facilitates conditions for the subsequent coalescence of the globules. Pass the anode 3f waste water falls into the region of equal potential

between anodes 3 and 4. The intensity of the electric field in this area is much less than in the area between cathode 2 and anode 3. The water being treated becomes a donor of positive ions entering the area between cathode 2 and anode 3. As a result of directional diffusion, the number of positive ions in the volume of the treated water decreases, which leads to a decrease in the charge of the ionic atmosphere surrounding the glass. An additional non-charged charge of the globule appears, which facilitates its subsequent discharge at the anode 4.

In the water thus treated, there is an intensive union of individual globules in the aggregate. The resulting aggregates are subsequently easily removed from the wastewater by sedimentation or flotation.

An example implementation of the method. The original emulsion was prepared in the following 3) W way. 50 ml of a 2% ML-72 type surfactant solution was added to 1 liter of monosodium solution of sodium chloride. The solution was stirred. Then S ml of vaseline oil was added, the solution was stirred vigorously for 10 minutes with a micron sulfur with a rotation frequency of 3600 rpm. The prepared emulsion was treated in an electrolyzer. S Results of water treatment according to known and proposed methods. . are shown in the table.

100

292

The degree of water purification with the same treatment parameters increased by 13% b. highly dispersed particles are contained in water treated by a known method. In the water treated by the proposed method, large aggregates are contained that are easily removed by subsequent electroflotation.

Processing in the field with a voltage of less than 100 V / m reduces the degree of purification, with a intensity of more than 3000 V / m increases the gas evolution at the cathode

239

WHAT complicates the flow of gas-liquid mixture through the channels of the anode

The proposed method allows partially destroying the counterion layer to increase the particle’s uncompensated charge in order to increase the particle mobility. After the discharge of the anode, the particles due to the molecular | forces are aggregated or coalesced. However, their size increases, which is advantageous for their subsequent extraction by flotation method. .

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Claims (1)

METHOD OF ELECTROLYTIC-WASTE WATER CLEANING from petroleum products, including water treatment in the electrolyzer with a mesh cathode and nep-j forged anode and electroflot installed along the water to be purified? with an additional anode mounted parallel to the core, at ¹ maintaining the field strength between the primary anode and the cathode 100-3000 V / m and equal potentials at the anodes. Figure 1. 1