RU2268860C2 - Method of purification of natural and industrial waste waters by electroflotation - Google Patents

Abstract

FIELD: heat and power industry; chemical industry; methods and devices of purification of natural and industrial waste waters by electroflotation.

SUBSTANCE: the invention is pertaining to the methods of purification of natural and industrial waste waters by electroflotation and may be used in heat and power industry, chemical industry, where the installations of chemical water treatment and purification of waste waters are used. The invention provides, that the method is realized at presence of a coagulant and a flocculant in the device containing electrodes. At that the electrodes are located in the lower part of the device. Separation of the liquid and solid phases is conducted in the upper part of the device in the area of concentration of the electroflotation slime saturated with bubbles of the electrolysis gases coming from below upwards. At that the initial water for purification is uniformly fed from above downwards on the electroflotation slime through a located in the upper part of the body the chamber with the bottom made out of a perforated and-or mesh material, and the clarified water transits in the electrode area, where it is additionally purified from the organic impurities. The method ensures a high degree of purification at a stable run of the process at the low densities of current.

EFFECT: the invention ensures a high degree of purification at a stable run of the process at the low densities of current.

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Description

The invention relates to methods for purifying natural and waste water and can be used in the energy, chemical industry and in all sectors of the economy, where chemical water treatment and wastewater treatment plants operate.

Purification of natural water is necessary because it contains various impurities: suspended and colloidal substances, dissolved mineral and organic compounds, microorganisms, etc.

One of the known methods for the extraction of impurities from water is electroflotation, which is carried out by finely dispersed bubbles of hydrogen and oxygen, resulting from the electrolysis of water. A close analogue of the proposed method is a method of water purification by electrochemical treatment with a duralumin anode and a mesh cathode when acidified to pH = 4-6 and alkalinized to pH = 9.5-11, followed by filtration, electrolysis is carried out at an anode current density of 100-150 A / m ² , a.s. USSR No. 710989, C 02 C 5/12, 1980

The disadvantage of the analogue is the need for acidification or alkalization of water during its purification, which is inappropriate when purifying natural water, as well as electrolysis at high current densities of 100 A / m ² or more.

Closest to the technical solution to the claimed method is a method of purifying water from suspended particles by electrochemical coagulation in the presence of a polyacrylamide flocculant (prototype).

A.S. USSR No. 444404, C 02 5/12, C 02 B 1/82, 1977

The known method of electroflotation is based on the production of coagulants by anodic dissolution of the electrodes, water impurities interact with the coagulant and float with electrolysis gas bubbles.

A disadvantage of the known electrochemical method is the contamination of the electrodes with scagulated particles of water impurities and the process at high current densities.

The objective of the invention is to achieve a high degree of purification of water from coagulated impurities with a more stable process at low current densities.

This goal is achieved by filtering the source water through a layer of sludge that accumulates on the surface of the water. Cleaned from sludge water enters the electrolyzer, and the electrodes are not contaminated.

The electroflotation process according to this method is carried out in an electrolyzer different from the device of known apparatuses.

An analogue of the claimed invention is a method and installation for electrocoagulation treatment of industrial wastewater.

Installation for removing foreign substances from discharged streams contains an apparatus for electrocoagulation, equipped with charged and uncharged plates, between which passes the water to be cleaned. The device is connected to a voltage source, which creates positive and negative charges on the plates. After electrocoagulation of impurities, water is sent to another container for foam removal, in which it is shaken to raise gas bubbles trapped in the liquid and form a foamy layer on the surface. Further, the water flow through the thickener sludge, which accumulates in its lower part, is discharged into the clarifier. After thickening, the precipitate is loaded into the press filter, in which it is released from the main part of the water.

Pat. US 6294061, C 02 F 1/46, 2001

The disadvantage of the analogue is the carrying out of processes in different containers - electrocoagulation, foam removal, thickening, clarification - and filtering the sediment through a press filter, which is a laborious and expensive process.

The closest in technical solution is a device for treating wastewater, containing a closed chamber, bottom, side walls. Wastewater is supplied to the lower part of the chamber, two electrodes of opposite polarity are also located in the lower part of the chamber. Between the electrodes created an electric field for the wastewater treatment. As a result, the upper layer of liquid has a lower density than the density of the water being purified. The upper layer of liquid containing solid particles is removed through an outlet in the upper part of the apparatus (prototype).

Pat. U.S. 3975256, p. 17.09.76, IPC C 02 V 1/82.

The disadvantage of the prototype is the supply of the source of purified water to the lower part of the apparatus, where the electrodes are located, as a result of which the electrodes are overgrown with particles of water pollution and violation of the parameters of the electrocoagulation process.

In contrast to the known electrolyzers, a device is proposed which in the upper part is equipped with a chamber with a bottom made of perforated and / or mesh materials for uniform supply of source water. A diagram of the proposed device is shown in the drawing.

The proposed device has a housing 1, a pair or more of opposite electrodes 2 located in the lower part of the apparatus horizontally or inclinedly, water inlet 3 nozzles in the upper part and purified water outlet 4 in the lower part of the apparatus. On top of the device is equipped with a chamber with a bottom made of perforated and / or mesh material 8, which allows you to evenly distribute the source water on the surface of previously swallowed sludge 5, acting as a filter.

Purified water containing reagents - coagulant aluminum sulphate and flocculant polyacrylamide - and sludge, is filtered through a sludge filter 5 into the clarification zone 6, located under the sludge filter 5. Particles of pollution from the treated water are deposited on the surface of the sludge filter. The purified water is discharged through the branch pipe 4 located in the lower part of the apparatus. The device is equipped with an air vent 9.

When the power source is turned off, the sludge filter does not collapse, but, on the contrary, is compacted due to the release of gas bubbles. The sludge filter can be in a compacted state for a long time and not be destroyed.

It is possible to remove sludge from the apparatus in various ways (7), continuously or periodically.

The novelty elements of the proposed method and device for treating natural and waste waters are:

- equipping the device in the upper part with a chamber with a bottom made of perforated and / or mesh material for uniform distribution of the purified water over the surface of the foam layer,

- the foam layer of coagulated and extracted from the volume of particles of pollution over time is compacted and forms a so-called slurry filter, in which the newly arriving particles of pollution are delayed,

- the location of the electrodes in the area of clarified water prevents the coating of electrodes with particles of contamination and, as a result, violation of the process parameters,

- conducting the electrolysis process at low current densities of 10 A / m ² or more.

Examples of purification of natural and wastewater by electroflotation

The tests were carried out in a laboratory setup consisting of a rectifier, ammeter, feeder, electroflotator, a container for purified water, a container for collecting foam product.

Source water with the addition of aluminum sulphate coagulant and polyacrylamide flocculant was supplied to the electroflotator at various speeds. At the exit from the electroflotator, the content of suspended particles in the purified water and the pH of the water were measured depending on the magnitude of the nutritional load. By reducing the concentration of the suspension, we judged the effectiveness of the electroflotation process. The voltage applied to the electrodes was changed, in accordance with this, the current strength changed, and, therefore, the degree of pulp aeration by electrolysis gases.

Electroflotation of coagulated impurities of river water was carried out in an electrolyzer with a working volume of 1 and 2 l, with perforated aluminum anodes and mesh cathodes made of 12 × 18Н10Т stainless steel.

Flotator volume 1 l. The flotation of river water impurities after their coagulation with aluminum sulfate was carried out under standard optimal conditions, pH ref. water 7.75, pH after coagulation 5.92, pH after flotation 6.35. Voltage 3 ... 8 V, current strength 125 mA. The load was changed from 5.4 to 20 l / h while monitoring the content of suspended particles in purified water. The average feed rate was 7.8 l / h with a suspension content of 0.030 g / l and 6.5 l / h with a suspension in purified water of 0.020 g / l. Flotation time 1.5 minutes, the volume of sludge was about 1%.

For comparison, the content of suspended particles in purified water after clarifiers was determined; depending on the load, the data varied from 0.030 to 0.140 g / l. Thus, the average electroflotation rate fully provides the required degree of purification.

The electroflotation of sludge from the sludge compactor and from the zone of contact of water with reagents was studied. The results are presented in table 1.

The degree of purification of natural and waste water from pollution during water treatment in clarifiers is 84-86%. The data in table 1 show that with electroflotation a higher degree of purification of water from pollution is achieved in comparison with the purification of water in clarifiers. It is practically recommended that water purification be carried out at a voltage of not more than 4 V, the degree of purification is 97.1 .-. 98.1%. Sludge from the zone of contact of water with reagents is more flotative than when flotation of sludge from the sludge collector. It is known that aluminum hydroxide precisely in the process of formation actively sorb impurities of water pollution and hydrogen released at the cathode, therefore, the flotation time is reduced.

Table 1. Characterization of the parameters of natural and waste water purification by electroflotation by the proposed method. Product Named V, B ^x J mA t min W, W g / l d, A / m ² pH V, l / h P, g / l E% 1. Electroflotation of river water Exodus 5.92 1.030 Con.1 3.8 125 1.5 0.012 10 6.35 7.8 0.030 97.1 Con.2 3.8 125 1.5 0.012 10 6.35 6.5 0.020 98.1 2. Electroflotation of sludge from the sludge compactor Exodus 6.83 1.46 Con 3.2 200 7 0.075 16 7.06 4.0 0.13 91.1 Exodus 6.97 1.97 Con 9.0 525 3 0.236 42 7.22 4.4 0.03 98.5 3. Electroflotation of sludge from the zone of contact of water with reagents Exodus 6.50 1.03 Con 3.2 200 3 0.032 16 7.09 4.2 0.03 97.1 Exodus 6.65 1.17 Con 9.0 525 2 0.158 42 7.35 5.0 0.01 99.1 ^x Links: V, B - voltage, J, mA - current, t, min - time,
W, W h / l - power consumption, d, A / m ² - current density, V, l / h - filtration rate, P, g / l - amount of solid, E - degree of solid recovery,%, coagulant consumption 60- 80 g / m ³ , consumption of polyacrylamide 0.055 g / m ³ .

The results of the experiments showed a slight increase in the pH of water in the process of electroflotation, therefore, a decrease in the corrosion activity of water, which will positively affect its further use.

Claims (1)

The method of purification of natural and waste water by electroflotation in the presence of a coagulant and flocculant in a device containing electrodes, characterized in that the electrodes are located in the lower part of the device, the separation of liquid and solid phases is carried out in the upper part of the device in the concentration zone of electroflotting saturated with electrolysis gas bubbles rising from bottom to top, while the source of purified water evenly flows from top to bottom on electroflot sludge through a chamber located in the upper part of the body with a bottom from perforated and / or mesh material, and clarified water passes into the electrode zone, where it is further purified from organic impurities.