RU2742877C1 - Apparatus for pretreatment of waste water before biological treatment - Google Patents

Abstract

FIELD: treatment.SUBSTANCE: invention relates to biological treatment of waste water and can be used for creation of waste water treatment systems in food, textile, pulp-and-paper, leather industry, enterprises of agroindustrial complex and communal sphere. Pre-treatment plant for waste water before biological treatment contains control tank 1, pump 2, settling tank 7 and biological treatment unit 8. Plant is equipped with apparatus for vortex layer of ferromagnetic particles 5, as well as ejector 3, made with possibility to supply reagents into waste water from unit for preparation and supply of reagents 4. Control tank 1 is communicated via pipeline 2 via pump 2 with ejector 3 with outlet communicated with vortex layer of ferromagnetic particles 5. Output of vortex layer device of ferromagnetic particles 5 is connected to settling tank 7, which is connected by pipeline with biological waste water treatment unit 8. At that, pump outlet 2 is communicated via pipeline with control tank 1 via gate valve to make circulation circuit for hydraulic mixing of waste water in control tank 1.EFFECT: disclosed plant provides higher efficiency of removal of pollutants from highly contaminated industrial waste water in the form of suspended and colloidal particles, cations of heavy metals, and also provides intensification of process of biological treatment of waste water.1 cl, 1 dwg, 3 tbl, 2 ex

Description

The invention relates to the field of biological wastewater treatment with a high content of organic pollutants, suspended solids, as well as a variety of impurities toxic to the activated sludge biocenosis, such as heavy metal cations and can be used to create wastewater treatment systems in food, textile, cellulose - paper, leather industry, enterprises of the agro-industrial complex and public utilities.

It is known that the intensity of biological treatment is influenced by many factors, including the amount of undissolved impurities, as well as toxic substances that can inhibit biological processes (Zhmur N.S. Technological and biochemical processes of wastewater treatment at facilities with aeration tanks // M .: AQUAROS . 2003. - 507 s.).

It is known that the rate of biochemical destruction of organic pollutants by activated sludge in the form of suspended solids is four times, and in the form of colloidal particles is almost two times lower than the rate of oxidation of pollutants in the form of true solutions. Therefore, an increase in the efficiency of removing dispersed particles from wastewater in the process of primary settling leads not only to a decrease in the amount of organic contaminants entering the biochemical treatment, but also to a change in the quality of wastewater, which causes an increase in the specific rate of biochemical oxidation (Andreev S.Yu., Grishin B. M., Demidochkin V.V., Zlydnev A.V., Koldov A.S., Kulapin V.I.Using the reception of preliminary coagulation treatment of wastewater to intensify their biological treatment // Proceedings of the international symposium reliability and quality. 2012. Ed. : Penza State University (Penza). T. 2. S. 275-276).

Various methods and devices are used as a preliminary treatment of wastewater before biological treatment to increase the efficiency of primary sedimentation, to reduce the concentration of organic pollutants and toxic impurities.

It is known that the use of reagents makes it possible to intensify the process of primary sedimentation, reduce the load on the aeration tank, and also reduce the specific energy consumption for biological treatment (Getmantsev S.V., Nechaev I.A., Gandurina L.V. Purification of industrial wastewater with coagulants and flocculants / / M .: ASV. 2008.272 s.).

The known method of preliminary coagulation treatment of wastewater by the method of concentrated coagulation in order to increase the efficiency of the coagulation process (Andreev S.Yu., Grishin B.M., Demidochkin V.V., Zlydnev A.V., Koldov A.S., Kulapin V. I. Using the method of preliminary coagulation treatment of wastewater for the intensification of their biological treatment // Proceedings of the international symposium reliability and quality. 2012. Publisher: Penza State University (Penza). T. 2. P. 275-276). Concentrated coagulation consists in metering the entire required amount of coagulant into only part of the treated water. After thorough mixing with the coagulant solution, the stream of treated water is combined with the main stream of untreated water.

The main disadvantage of coagulation wastewater treatment is the high cost of reagents for wastewater treatment, as well as a possible decrease in the efficiency of the coagulation process when the quantitative and qualitative indicators of the incoming wastewater change.

A known method for intensifying the work of biological treatment facilities due to pretreatment of wastewater in vortex hydrodynamic devices (VGDU) with the supply of excess activated sludge as a bioflocculant (Chuprakov E.G. Intensification of the work of urban treatment facilities due to pretreatment of wastewater in vortex hydrodynamic devices / / Author's abstract of thesis for a candidate of technical sciences, 2005. 24 p., Grishin BM, Andreev S.Yu. S. 44-47). VGDU consists of three coaxially connected chambers (inlet chamber, vortex chamber and mixing chamber) and is installed above the pressure damping tank. Waste water, pumped under excess pressure, is supplied through a branch pipe tangentially connected to the inlet chamber, in which a rotational movement of the liquid is created. An area with reduced pressure is created along the axis of the vortex chamber, into which atmospheric air is sucked in, and 1 m ^{3 of} wastewater ejects up to 0.4 m ^{3 of} atmospheric air. Due to the intensive mixing of wastewater with air in the vortex chamber, the wastewater is saturated with atmospheric oxygen and the fine grains of sand are washed from adhering organic contaminants.

The disadvantage of the known method and installation is that the time of wastewater treatment in the VGDU is not regulated when the flow rate and quality of the incoming wastewater changes. Also, suspended particles of small size can attach to air bubbles that are ejected into the waste liquid, thereby acquiring a kind of "windage", which makes it difficult to settle them in the sump.

There is a known method of preparing wastewater for aerobic biological treatment, in which the original wastewater is subjected to reagent-free flotation separation, then it is sent to the blender for the consumption and concentration of pollutants (RF patent No. 2304085, IPC C02F 9/14, C02F 3/30, publ. 10.08.2007).

The disadvantages of this installation are that reagent-free flotation has low efficiency, removal of heavy impurities precipitated in the lower part of the apparatus is not provided, the efficiency of flotation treatment strongly depends on the quantitative and qualitative characteristics of the incoming wastewater, the averaging of wastewater occurs after the flotation treatment, thus thus, the flotation process will be unstable and ineffective.

The closest in technical essence to the proposed invention is a wastewater treatment plant, in which wastewater is treated with bioflocculants in a flocculator equipped with a low-speed stirring device, then it is fed into the mixing chamber of the flotation device, where it is brought into contact with water saturated with air in a pressure tank -saturator, floating flotation products are removed using a rowing system, or an overflow system, the water to be purified using a siphon partition is taken out of the flotation device for biological treatment (RF patent No. 2404133, IPC C02F 1/24, C02F 3/02, C02F 9/14, publ . 20.11.2010, Bul. 32). The known plant uses a natural bioflocculant obtained from activated sludge.

The disadvantage of the known wastewater treatment plant is the complexity of the proposed design, which is characterized by high material and energy consumption, there is no averaging of wastewater by flow rate and concentration before being fed to the flocculation-flotation stage, there is also no device for removing the sediment falling to the bottom of the flotation cell, it is not enough effective removal of pollutants in the form of suspended and colloidal particles, as well as heavy metal cations, from highly contaminated industrial wastewater.

The technical objective of the proposed invention is to improve the quality of industrial wastewater treatment for suspended solids, colloidal substances, heavy metal cations, to ensure the reliability and functional flexibility of the proposed installation when changing the qualitative and quantitative characteristics entering the biological treatment of industrial wastewater.

As a result of using the proposed invention, the efficiency of removing pollutants in the form of suspended and colloidal particles, as well as heavy metal cations, which can have a toxic effect on the activated sludge biocenosis, increases from highly polluted industrial wastewater, which will make it possible to intensify the process of biological wastewater treatment, reduce the amount excess activated sludge, the proposed installation will increase the stability of the subsequent biological treatment process, will help to reduce the operating and energy costs of the complex of facilities as a whole, due to the use of a vortex layer of ferromagnetic particles (ABC), in which solid particles are ground, the destruction of micelles of colloidal particles in as a result of intensive mixing processes, magnetodynamic shocks, cavitation and other factors, which contributes to an increase in the rate of their sedimentation outside the apparatus, in addition, during the treatment of waste water in ABC is additionally decontaminated.

The above technical result is achieved by the fact that the proposed installation for pretreatment of wastewater before biological treatment, containing a control tank, a pump, a sump and a biological treatment unit, according to the invention, is equipped with an apparatus for a vortex layer of ferromagnetic particles, as well as an ejector made with the possibility of supplying reagents to the wastewater water from the unit for preparation and supply of reagents, while the control tank is connected by a pipeline through a pump with an ejector, the outlet of which is connected to the inlet of the apparatus of the vortex layer of ferromagnetic particles, and the outlet of the apparatus of the vortex layer of ferromagnetic particles is connected to a sump, which is connected by a pipeline to the biological wastewater treatment unit , and the pump outlet is connected by a pipeline to the control tank through a gate valve, forming a circulation loop for hydraulic mixing of waste water in the control tank.

The essence of the invention is illustrated by a drawing, which shows a general diagram of a wastewater pretreatment plant before biological treatment.

The installation contains a control tank 1 connected by a pipeline 9 with a pump for supply and recirculation of wastewater 2, connected to an ejector 3, and the outlet of the pump 2 is connected to a control tank 1 through a valve 6 by a pipeline 11 (bypass), a preparation and supply unit of reagents 4 is connected to the inlet of the ejector 3 by pipeline 13, the outlet of the ejector 3 is connected to the inlet ABC 5 by pipeline 14, the outlet ABC 5 is connected to the sump 7 by the pipeline 10, and the sump 7 is connected by the pipeline 12 to the biological wastewater treatment unit 8.

Installation of pre-treatment of wastewater before biological treatment works as follows.

Waste water from the control tank 1 by the pump 2 through the pipeline 9 is supplied to the ejector 3, while part of the flow through the pipeline 11 through the valve 6 returns to the control tank 1, providing hydraulic mixing and regulation of the residence time of waste water in ABC 5. The ejector 3 is connected with a block for preparation and supply of reagents 4 by pipeline 13. With the help of an ejector 3, various reagents (coagulants, flocculants, ozone, hydrogen peroxide, etc.) are supplied to pipeline 14. The selection of the necessary reagents is carried out according to the results of preliminary studies and depends on the type and physicochemical composition of the treated wastewater.

Then the waste water flow is directed through pipeline 14 to ABC 5. ABC 5 has the following technical characteristics: volume of the working chamber 0.3 ÷ 10 l; working chamber diameter 60 ÷ 180 mm; the length of the working bodies (ferromagnetic particles) 5 ÷ 30 mm; diameter of working bodies 0.5 ÷ 5 mm; mass of working bodies 200 ÷ 800 g; current strength 30 ÷ 250 A; magnetic field induction in the chamber 0.1 ÷ 1.5 T; voltage 60 ÷ 250 V; frequency 20 ÷ 400 Hz. The required technical parameters ABC and the processing time in the apparatus depend on the qualitative and quantitative characteristics of the treated wastewater and are determined during the preliminary tests.

After processing in ABC 5, the waste water flows through the pipeline 10 to the settler 7, in which the impurities floating on the surface are removed using a scraper mechanism (not shown in the drawing), and the sludge is removed from the bottom of the settler 7 and sent for dehydration. Clarified water, which has undergone pretreatment in the installation, from the settler 7 through the pipeline 12 is directed to the biological treatment unit 8.

Example 1.

The processing time of the waste water of the confectionery factory in ABC was 2 minutes, the residence time in the sump was 1 hour. The ABC worked with the following technological parameters: volume of the working chamber - 0.5 l, magnetic field frequency - 65 Hz, voltage - 180 V, current - 52 A. Size of ferromagnetic particles - 1.6 × 15.8 mm, quantity - 250 g. The supply of reagents before the ABC using the ejector was not carried out. Table 1 shows the results of waste water treatment.

For this type of waste water, the treatment showed a sufficiently high efficiency of purification of waste water from a confectionery factory using the proposed installation for suspended solids, COD, BOD ₅ .

Example 2.

Wastewater treatment was carried out, including wastewater from a tannery (60 vol.%) And household waste water (40 vol.%). The residence time of waste water in the ABC was 4 minutes and in the sump - 1 hour. The reagents were not fed before the ABC using the ejector. Tables 2 and 3 show the results of the tannery wastewater treatment.

For this type of wastewater, treatment in the installation showed a fairly high efficiency in terms of suspended solids and microbiological indicators.

Claims (1)

Installation of pretreatment of wastewater before biological treatment, containing a control tank, a pump, a sump and a biological treatment unit, characterized in that it is equipped with an apparatus for a vortex layer of ferromagnetic particles, as well as an ejector made with the possibility of supplying reagents to waste water from the unit for preparation and supply of reagents , while the control tank is connected by a pipeline through a pump with an ejector, the outlet of which is connected to the inlet of the apparatus of the vortex layer of ferromagnetic particles, and the outlet of the apparatus of the vortex layer of ferromagnetic particles is connected to a sump, which is connected by a pipeline to a biological wastewater treatment unit, and the pump outlet is connected by a pipeline to regulating tank through a gate valve, forming a circulation loop for hydraulic mixing of waste water in the regulating tank.

Images