RU178983U1 - DEVICE FOR WASTE WATER TREATMENT FROM MULTICOMPONENT POLLUTION - Google Patents

Abstract

The utility model relates to the field of industrial wastewater treatment from multicomponent pollution (suspended solids, emulsified fat components, oil products, heavy metals, colloidal dispersed dissolved organic compounds, etc.), in particular, to devices for physicochemical wastewater treatment and can be it was used at the enterprises of the oil refining, engineering, light, food industries and for the treatment of low costs close to those specified in the composition of wastewater with limited nenny areas under treatment facilities. A device for treating multicomponent wastewater contains a polyvinyl chloride case with a built-in package of horizontally alternating perforated plate electrodes equal to 20 having a thickness of 0.0015 m, which are mounted on contact guide pins. The electrodes and contact guide pins are made of stainless steel. Electronegative and electropositive electrodes are separated by dialectic gaskets and nuts made of fluoroplastic. The distance between electronegative and electropositive electrodes is 3.5 mm. The device includes a built-in adsorber and a prefabricated receiver of a sludge. The fluid velocity in the device is at least 0.3 m / h. As the sorption material, activated carbon of the AG-3 brand is used. The technical result is to increase the efficiency of wastewater treatment from organic pollution and heavy metals. 7 c.p. f-ly, 1 ill., 3 ave.

Description

The utility model relates to the field of treatment of multicomponent industrial wastewater contaminated with suspended solids, emulsified fat components, oil products, heavy metal ions, colloid-dispersed dissolved organic compounds, etc., in particular, to devices for physico-chemical treatment and can be used in enterprises oil refining, machine-building, light industry, food industry, as well as for wastewater similar in composition to the specified effluents, with their small size gatherings and limited production areas reserved for treatment facilities.

Wastewater from industrial enterprises is often multicomponent and contains pollutants of various nature - oil products, dyes, phenols, fats, surfactants, heavy metal ions. Currently, electrical processing methods have been developed as effective and advanced technologies in the field of water treatment. Wastewater treatment plants using the indicated methods are simple to operate, the treatment process is easy to manage and automate, and, in addition, their use allows for the efficient purification of industrial wastewater contaminated with organic and inorganic substances at no additional cost. When developing the claimed device, the method was based on the electrochemical oxidation method, characterized in that the organic substances in the wastewater, under the influence of a constant electric current, are oxidized to simpler and non-toxic, or completely decompose with the formation of CO ₂ , NH ₃ and H ₂ Oh, and heavy metal ions are reduced on the surface of the cathode, or form water-insoluble substances, interacting with electrolysis products in the volume of the processed liquid.

A known apparatus comprising a flotation chamber with an electrode block located in its lower part, a settling chamber, a scraper device, a device for supplying and discharging water (see the description of the invention of the Russian Federation 2051117 C1, IPC C02F 1/24, C02F 1/465 publ. 21.12. 1995).

A device is known for electrochemical water purification, containing a flotation chamber, an electrolyzer with a package of soluble electrodes, mounted under the flotation chamber and a filter placed along the walls of the flotation chamber, forming a cavity with all the walls for collecting purified water and its outlet through an opening in the flotation chamber (see Description of the invention of the Russian Federation 2203226, C02F 1/463, publ. 04/27/2003).

The disadvantage of these analogues is the insufficient degree of wastewater treatment from emulsified fatty contaminants, colloidal dispersed dissolved organic compounds, oil products and heavy metal ions.

The closest in technical essence and the achieved result is a column type electrolyzer containing perforated electrodes made of insoluble material during electrolysis, separated by insulating gaskets, cleaned water inlet and outlet pipes, additionally contain a chamber with a nozzle located in the upper part of the electrolyzer, and the electrodes are located horizontally above the inlet of the purified water (see description of the USSR author's certificate 1033446, IPC C02F 1/46, publ. 07.08.1983).

The disadvantage of the prototype is the low efficiency of wastewater treatment from heavy metal ions, significant energy costs and the irretrievable loss of a large amount of catalyst.

The technical task is to create a structurally simple and reliable device, occupying a small area, reliable in operation and providing a high degree of wastewater treatment from multicomponent pollution.

The technical result that can be obtained by using the claimed device is to increase the efficiency of wastewater treatment to the required values of pollution concentrations in accordance with the applicable standards of a particular enterprise.

The specified technical result is also achieved by the fact that the device for treating multicomponent wastewater includes: a polyvinyl chloride case with an integrated package of horizontally alternating perforated plate electrodes, amounting to 20 pieces, having a thickness of 0.0015 m, which are mounted on contact guide pins. The electrodes and contact guide pins are made of stainless steel. Electronegative and electropositive electrodes are separated by dialectic gaskets and nuts made of fluoroplastic. The distance between electronegative and electropositive electrodes is 3.5 mm. The device also includes recessed ones: an adsorber filled with sorption material, and a prefabricated sludge receiver. The fluid velocity in the device is at least 0.3 m / h. As the sorption material, activated carbon of the AG-3 brand is used.

The claimed utility model is illustrated by a drawing (Fig. 1), which shows a device for wastewater treatment from multicomponent pollution.

The device comprises: a valve for flushing the device 1, guiding contact pins 2, a wastewater supply nozzle 3, the device casing 4, nuts for attaching the contact guide pins in the installation case 5, contact nuts for attaching the electrode plates 6, dielectric nuts for attaching the electrode plates 7, dielectric gaskets 8, plates of electrodes of the electrolyzer 9, adsorber 10, fitting for supplying wastewater to the adsorber that has undergone electrochemical treatment 11, overflow hole of the adsorber 12, drain valve for purified water 13, scraper shaft mechanism 14, the scraper mechanism made in the form of a paddle stirrer 15, the housing cover of the electrolyzer-adsorber 16, the gearbox of the scraper mechanism 17, the sludge receiver 18, the bolts of fastening to the electrolyzer-adsorber of the sludge receiver 19, the cover of the receiver of sludge 20, the hole for feeding the sludge with scraper mechanism, made in the form of a paddle mixer, located above the surface of the processed liquid, in the receiver flotchlama 21, the connecting gasket 22, the crane for pumping flotamic sludge 23, gas outlet to 24.

The principle of operation of the device is as follows. After preliminary mechanical cleaning, the contaminated liquid from the storage tank is fed through the nozzle 3 to the electrolyzer adsorber, depending on the device’s performance, the pump sets the rate of rise of the water column through the perforated plates of the electrodes 9, where the wastewater is electrochemically treated. When the wastewater that has undergone electrochemical treatment reaches a predetermined level, the latter through a nozzle 11 enters the first chamber of a two-chamber adsorber 10 filled with sorption material (activated carbon), then through a tidal hole 12, water enters the second chamber, where it is drained through a tap when it reaches a predetermined level discharge of purified water 13. Flotation foam using a scraper mechanism 15 is discharged into the receiver of sludge. Flotation sludge is pumped for processing through a crane for pumping sludge 23. During operation of the installation, gaseous and fine crystalline precipitates are inevitably released. The accumulated gases are discharged through the gas outlet pipe 24 located in the electrolyser cover, and the accumulated sediment is removed by flushing the device with a valve 1.

The claimed device for the treatment of multicomponent industrial wastewater is illustrated by the following examples.

Example 1. The wastewater of textile production was purified in an amount of 1 m ³ , previously mechanically cleaned. Wastewater was characterized by the following indicators: initial concentration of suspended solids - 95 mg / dm ³ ; BOD _full. - 450 mg⋅O ₂ / dm ³ ; COD _full . - 1000 mg⋅O ₂ / dm ³ ; ammonium nitrogen - 30 mg / dm ³ ; chlorides - 420 mg / dm ³ ; sulfates - 170 mg / dm ³ ; Surfactant - 30.5 mg / DM ³ ; phosphates - 14 mg / dm ³ ; copper - 3.9 mg / dm ³ ; dyes - 11.3 mg / DM ³ ; pH 11; temperature - 20 ° С. First, the liquid to be cleaned was preliminarily neutralized with a HCl solution to pH 7, and then, to intensify the process of water electrochemical treatment, 2.5 g / m ³ NaCl solution was added and passed through a combined device with perforated stainless steel electrodes combined with an adsorber. The current density was 3.5 A / dm ² . The speed of movement of water in the device is not less than 0.3 m / h. To intensify the process of electrochemical treatment of oxides, a NaCl solution in the amount of 2.5 g / m ³ was preliminarily introduced into the wastewater being cleaned. The adsorber was filled with activated carbon of the AG-3 grade. The device’s operating time was 3 hours. At the exit of the claimed device, the indicators of purified water corresponded to the permissible norms of the fishery reservoir of category 1 and were as follows: concentration of suspended solids - 8 mg / dm ³ ; BOD _full. - 2.8 mg⋅O ₂ / dm ³ ; COD _full. - 27 mg⋅O ₂ / dm ³ ; ammonium nitrogen - 0.35 mg / dm ³ ; chlorides - 92 mg / dm ³ ; sulfates - 71 mg / dm ³ ; SPAS - 0.44 mg / DM ³ ; phosphates - 1.8 mg / dm ³ ; copper - 0.001 mg / dm ³ ; dyes - less than 0.005; pH 7.5; temperature - 18 ° С.

Example 2. The wastewater treatment was carried out galvanic production in an amount of 1 m ³ previously mechanically cleaned. Wastewater was characterized by the following indicators: initial concentration of heavy metals - 350 mg / dm ³ ; petroleum products - 35 mg / dm ³ ; pH 3.5; temperature - 35 ° C. The liquid to be cleaned was first neutralized with a CaCO ₃ solution to pH 7, and then, to intensify the process of water electrochemical treatment, a 2.5 g / m ³ NaCl solution was added and passed through a combination device with perforated stainless steel electrodes combined with an adsorber. The current density was 3.5 A / m ² . The speed of movement of water in the device is not less than 0.3 m / h. The adsorber was filled with activated carbon of the AG-3 grade. The device’s operating time was 2 hours. As a result, when leaving the claimed device, the indicators of purified water improved significantly: the concentration of heavy metals - 45 mg / dm ³ ; petroleum products - 20 mg / dm ³ ; pH 8.5; temperature - 23 ° С.

Example 3. The wastewater of tobacco-tobacco production was treated in an amount of 1 m ³ , previously mechanically cleaned. The wastewater was characterized by the following indicators: initial concentration of suspended solids - 90 mg / dm ³ ; BOD _full. - 1405 mg⋅O ₂ / dm ³ ; COD _full. - 2445 mg⋅O ₂ / dm ³ ; fats - 8 mg / dm ³ ; petroleum products - 0.6 mg / dm ³ ; ammonium - 44 mg / dm ³ ; chlorides - 55 mg / dm ³ ; phosphates - 0.05 mg / dm ³ ; APAA - 25 mg / dm ³ ; iron commonly. - 0.25 mg / dm ³ ; pH 7.3; temperature - 25 ° С. To intensify the process of electrochemical water treatment, a solution of NaCl in an amount of 2.5 g / m ³ was preliminarily introduced into the wastewater being cleaned and passed through a combination device with perforated stainless steel electrodes combined with an adsorber. The current density was 3.5 A / dm ² . The speed of movement of water in the device is not less than 0.3 m / h. The adsorber was filled with activated carbon of the AG-3 grade. The device’s operating time was 4.5 hours. At the outlet of the purified water from the claimed device, the concentration of suspended solids is 40 mg / dm ³ ; BOD _full. - 21 mg⋅O ₂ / dm ³ ; COD _full. - 45 mg⋅O ₂ / dm ³ ; fats - 0.5 mg / dm ³ ; petroleum products - 0.1 mg / DM ³ ; ammonium nitrogen - 2.5 mg / dm ³ ; chlorides - 10 mg / dm ³ ; phosphates - 0 mg / dm ³ ; APAA - 0.2 mg / dm ³ ; iron commonly. - 0.05 mg / dm ³ ; pH 6.7; temperature - 20 ° С, which corresponds to current standards for discharge into the city sewage system (for example, the city of Volgograd).

The scope of this utility model is not limited to the examples described above, given only as an illustration of specific options, confirming the efficiency of the claimed device.

Thus, the claimed design features of the device provide for the treatment of multicomponent wastewater with varying degrees of pollution, a high cleaning effect but specific indicators that meet the required standards.

Claims (8)

1. A device for treating multicomponent wastewater, including a polyvinyl chloride case with an integrated stack of horizontally alternating perforated plate electrodes mounted on contact guide pins, characterized in that the electrodes and contact guide pins are made of stainless steel, while the electronegative and electropositive electrodes are separated dialectic gaskets and nuts made of fluoroplastic, and also are part of the device adsorber, s filled with sorption material, and a prefabricated receiver of sludge. 2. The device according to p. 1, characterized in that the number of horizontally alternating perforated plate electrodes is 20. 3. The device according to p. 1, characterized in that the thickness of the perforated plate electrodes is equal to 0.0015 m 4. The device according to claim 1, characterized in that the distance between the electronegative and electropositive electrodes is 3.5 mm. 5. The device according to p. 1, characterized in that the polyvinyl chloride case with an integrated package of horizontally alternating perforated plate electrodes is structurally combined with an adsorber. 6. The device according to p. 1, characterized in that the polyvinyl chloride body with an integrated package of horizontally alternating perforated plate electrodes is structurally combined with a prefabricated sludge receiver. 7. The device according to claim 1, characterized in that the fluid velocity in the device is at least 0.3 m / h. 8. The device according to p. 1, characterized in that as the sorption material using activated carbon brand AG-3.

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