RU2743531C1 - Method of biological purification of liquid fractions containing a disinfectant quaternary ammonium salts (qac) and similar substances together with household and/or industrial wastewater close to them in composition - Google Patents

Abstract

FIELD: biological purification.

SUBSTANCE: invention relates to the field of biological purification of liquid waste containing a disinfectant quaternary ammonium salts (QAS), and can be used for the joint purification of liquid waste and wastewater of industrial enterprises, settlements, separate buildings, cottages, airports, railway transport. Liquid waste containing the disinfectant quaternary ammonium salts is sent for mechanical cleaning, and then to a sorption mixer or pre-purification tank, where it is mixed in a ratio of 1:n, where n≥2, by volume with compacted sludge, previously regenerated for 15-48 hours, depending on the age of the sludge. In the sludge compactor, due to the aeration of the sludge liquid in the aerobic stabilizer, the oxygen concentration of 1-4 mg/l is maintained. From the sorption mixer or pre-purification tank, the sludge liquid is sent to the solid-liquid phase separation stage. The liquid phase – the fugate – is sent to a bio-filter with a ruff loading, then, the filtrate is sent to the mixing chamber of a sewage pumping station for combining with household and/or industrial wastewater. Next, the mixture is sent to the anoxic zone of the aeration tank to implement the denitrification process. The recycled sludge mixture is also sent to this stage from the aeration zone of the aeration tank, in which the nitrification process is implemented, and the circulating active sludge is sent from the secondary settling tank. The dose of sludge at the stages of anoxic and aerobic wastewater treatment in the aeration tank is 2.5-5 g/l for dry substance. The sludge mixture from the aerobic zone of the aeration tank is directed to the secondary settling tank, supernatant liquor from the secondary settling tank is directed to the construction of post-purification, circulating sludge is directed to anoxic stage of aeration tank, the excess active sludge is sent to the regenerator.

EFFECT: invention makes it possible to reduce the volume of the anoxic and aerobic zones of the aeration tank, as well as to increase reliability of the purification facilities and the environmental friendliness of the purification process.

7 cl, 1 dwg, 1 tbl, 1 ex

Description

The invention relates to the field of biological treatment of liquid waste containing a disinfectant quaternary ammonium salts (hereinafter referred to as CHAMS) and similar suspended activated sludge together with household and / or industrial waste waters close to them in composition and can be used for joint treatment liquid waste and wastewater from industrial enterprises, settlements, detached buildings, cottages, airports, railway transport.

There is a classical method for the disposal of liquid waste (sewage, slops, etc.) delivered from non-sewage buildings by sewage transport (SP 32.13330.2012 Sewerage. External networks and structures. Updated version of SNiP 2.04.03-85). The known method involves the collection and treatment of liquid waste before being discharged into the sewer network, which should be carried out at drainage stations located on the territory of the treatment facilities of domestic wastewater or in the immediate vicinity of them. It is allowed to place drainage stations near sewer collectors with diameters of at least 400 mm, while the amount of wastewater coming from the drainage station should not exceed 20% of the total estimated flow through the collector, in addition, wastewater delivered by sewage transport to the drainage station must be diluted into ratio 1: 1.2.

For such a regime of liquid waste flow for treatment together with domestic wastewater or industrial wastewater close to them in composition, a sufficiently large volume of the receiving chamber is required, a well-executed schedule for the delivery of liquid waste. In addition, this method does not imply the presence of disinfectants in the liquid waste, which will entail the inhibition of activated sludge.

Known "Method for deep biological treatment of wastewater from nitrogen ammonium salts" (patent RU N2185338). The method includes the treatment of waste water in alternating zones with a reduced oxygen regime and aerobic regime, followed by settling of biologically treated water and recirculated activated sludge in an amount of 100% of the volume of incoming wastewater with its distribution to zones with a low oxygen content, while 60% of the initial water is fed into the first zone with a reduced oxygen regime, and into the next zone with a lowered oxygen regime - 40%.

The disadvantages of this method are:

- the inability to receive liquid wastes, which are highly concentrated in organic substances nitrogen and phosphorus, liquid substances that contain disinfectants, since these schemes are implemented in aeration tanks - displacers, then salvo intake of highly concentrated toxic substances, which are liquid waste, will lead to inhibition of activated sludge.

- to ensure effective nitrogen removal, a nitrate recirculation of the sludge mixture from the outlet of the aeration tank to the inlet of the anoxide zone is provided, which, if there are ammonium nitrogen concentrations in the wastewater, significantly exceeding its content in domestic wastewater, leads to additional capital and operating costs for biological cleaning in connection with the increase in both the volumes of the anoxide and aerobic zones of the bioreactor and the energy intensity of the process.

It is also known "A method for deep biological wastewater treatment from organic compounds and nitrogen of ammonium salts" (patent RU 2555893), the technical result of this method is achieved by the fact that, first, waste water is treated in full in areas with a reduced oxygen regime, and then in aerobic zones with the help of attached microorganisms, while the recirculated mixture of waste water and free-floating activated sludge from the last aerobic zone is fed to the beginning of the first zone with a reduced oxygen regime in an amount of 120-150%) of the total volume of incoming waste water; the growth of attached microorganisms is carried out on the inert material "Irrigation" with a specific area in the first zone with a reduced oxygen regime of 17 m ² / m ³ , in the second zone - 21 m ² / m ³ and in zones with an aerobic regime - 24 m ² / m ³ , at hydraulic load, respectively, not higher: 1.38; 0.43; 0.32 m ³ / m ² carrier, waste water treatment in zones with a reduced oxygen regime is carried out for 1.4 and 3.4 hours, respectively; in zones with aerobic regime - 2.6 and 1.4 hours. The oxygen concentration in the zones with aerobic regime is maintained in the amount of 4-5 mg / l. The settling of purified water is carried out within 1-1.5 hours. The technical result of the invention is to increase the stability of the system to salvo discharges and other emergency situations; reduction in electricity consumption; reducing the settling time of biologically treated wastewater up to 1-1.5 hours.

Indeed, this method of wastewater treatment presupposes, due to the high frequency of circulation of purified wastewater to a zone with a reduced oxygen regime, to reduce the influence of the microflora suppression factor as a result of a burst of highly concentrated wastewater, and the presence of attached microorganisms will increase the stability of the system as a whole.

The disadvantage of this method is:

- the absence of ranges of values of the concentration of pollutants that will not have a negative effect on the process of wastewater treatment and inhibiting effect on the biocenosis of activated sludge; - the impossibility of receiving highly concentrated liquid waste with a disinfectant for cleaning.

Thus, this technological scheme cannot be recognized as effective for the joint treatment of domestic wastewater and liquid waste containing the disinfectant CHAMS and similar to it, toxic to the biocenosis and sorbed on its surface.

Known "Method for biological wastewater treatment from nitrogen-phosphorus and organic compounds" (patent RU 2 644 904). The method includes purification of wastewater from mechanical impurities, uniform removal of treated wastewater for anaerobic, anoxic and aerobic-anoxide biological treatment with activated sludge, circulation of the sludge mixture through membrane modules with simultaneous removal of the filtrate through membrane pores, periodic washing of the inner surface and membrane pores from particles activated sludge and contaminants, additional post-treatment, collection, disinfection and transportation of biologically treated waste water to the place of its discharge with constant removal of activated sludge from the bioreactor, followed by its dehydration in a dehydration unit.

When circulating the sludge mixture, the concentration of activated sludge is formed from 2 to 20 g / l. Discharge of treated wastewater from activated sludge occurs through the pores of horizontal membrane modules in a turbulent mode of flow-through circulation of activated sludge or vertical membrane modules in a laminar mode of airlift circulation of activated sludge with periodic washing of the inner surface and membrane pores. Activated sludge from the aerobic zone of the bioreactor is removed and fed to a dewatering unit for its hydration.

The method provides an increase in the productivity of the bioreactor and the receipt of treated wastewater with a quality corresponding to the standards of discharge into water bodies of fishery significance or secondary use in agriculture.

This technical solution makes it possible to provide higher doses of activated sludge and increase the stability of the wastewater treatment process.

The disadvantage of this method is:

- the need to wash the pores and the inner surface of the membranes, which complicates and increases the cost of operating the bioreactor;

- this method does not allow to ensure the resistance of the community of microorganisms to disinfectants that accumulate in the activated sludge as a result of its concentration, and, in this case, the impossibility to implement wastewater treatment due to the death of the biocenosis.

There is a known method for biological treatment of wastewater containing biodegradable substances, the closest in purpose and technical essence to the claimed one (RF patent 2440307, op. 20.01.2012), which consists in the preliminary treatment of wastewater containing insoluble mechanical impurities with organic substances sorbed on them , in the preliminary aeration tank, to the inlet of which activated sludge is fed from the settler. From the pre-aeration tank, waste water containing pure insoluble mechanical impurities, freed from organic substances sorbed on them, and activated sludge are fed to mechanical treatment. The sludge liquid containing activated sludge and easily digestible organic substances that have passed into solution is fed into a bioreactor with zones alternating in oxygen content when air is supplied to it, then into a settling tank that also contains zones that are heterogeneous in oxygen content. From the settler, the activated sludge is returned to the bioreactor and the pre-aeration tank with the formation of a closed technological cycle of wastewater treatment. This technical solution was taken as a prototype.

The known method makes it possible to intensify and optimize the process of wastewater treatment, including those containing high concentrations of organic substances, as a result of preliminary contact of wastewater with activated sludge in a pre-aeration tank.

The disadvantages of this method are:

- the inability to neutralize the toxic effect of the disinfecting substance CHAMS on the activated sludge biocenosis;

- lack of regeneration of activated sludge supplied to the preliminary aeration tank, which prevents the release of the surface of cells of microorganisms from previously sorbed contaminants and, accordingly, reduces the sorption and oxidizing capacity of activated sludge;

- no compaction of activated sludge, which prevents the creation of high doses of activated sludge in the tank;

- low degree of purification from organic compounds and biogenic elements - nitrogen and phosphorus due to the absence of a post-treatment stage, the quality of the treated waste water will not meet the requirements for discharge into a fishery water body;

- the need for aeration in the tank, in which the initial contact of activated sludge from the sump with waste water occurs, which entails additional costs for electricity;

- a sludge is formed in the preliminary aeration tank, which includes, in addition to insoluble impurities, freed from organic matter sorbed on them, and activated sludge, which will entail an unreasonably high cost of sludge treatment.

The purpose and technical results of the proposed method for biological treatment of liquid waste containing the disinfectant CHAMS and similar to it, together with household and / or industrial wastewater close to them in composition, is:

- ensuring the possibility of extracting the disinfectant CHAMS and similar to it from liquid waste;

- ensuring the possibility of cleaning liquid wastes together with household and / or industrial waste waters close to them in composition;

- reduction of the volume of the anoxic and aerobic zones of the aerotank;

- improving the reliability of the treatment facilities;

- ensuring the environmental friendliness of the cleaning process;

- reducing the cost of organizing the wastewater treatment process.

The technical results are achieved by the fact that in the method of biological treatment of liquid waste containing the disinfectant CHAMS and similar to it, together with household and / or industrial wastewater close to them in composition, including the stage of mechanical cleaning of liquid waste, the stage of processing liquid waste with deeply regenerated and compacted activated sludge, the stage of phase separation followed by filtration of the centrate through the ruff loading, the stage of combining the filtrate with the total volume of household and / or industrial wastewater close to them in composition in the receiving chamber of the sewage pumping station (hereinafter - SPS), processing stages activated sludge in the hydraulically connected anoxide and aerobic zones of the aeration tank, the stage of post-treatment with the preceding phase separation in the secondary settling tank. The method also includes recirculation of the sludge mixture from the stage of aerobic treatment to the stage of anoxide, liquid waste containing the disinfectant CHAMS and similar is sent to mechanical cleaning, and then to a sorption mixer or pre-treatment tank, where they are mixed in a 1: n ratio, where n≥2 by volume with compacted sludge, previously regenerated for 15-48 hours, depending on the age of the sludge, the sludge dose in the sludge compactor is at least 20 g / l, the oxygen concentration is maintained at 1-4 mg / l, achieved by aeration of the sludge liquid in an aerobic stabilizer, the dose of sludge in which is maintained at 5-12 g / l, from the sorption mixer or pre-treatment tank, the sludge liquid is directed to the separation of the solid and liquid phases, the liquid phase - centrate is sent to a biofilter with a ruff loading, then the filtrate is sent to the mixing chamber Sewage pumping station for combining with household and / or with industrial waste waters close to them in composition and, then the mixture is sent to the anoxide zone of the aeration tank to implement the denitrification process, the recirculated sludge mixture from the aeration zone of the aeration tank is also sent to this stage, in which the nitrification process is carried out, circulating activated sludge from the secondary clarifier is also sent to this stage, the dose of sludge at stages anoxic and aerobic treatment is 2.5-5 g / l on dry matter, the sludge mixture is sent from the aerobic zone of the aeration tank to the secondary sedimentation tank, the supernatant liquid from the secondary sedimentation tank is sent to the post-treatment facilities, the circulating sludge is sent to the anoxide stage of the aeration tank, excess active sludge sent to the regenerator.

Also, the achievement of technical results is influenced by the fact that the volume ratio of liquid waste containing the disinfectant CHAMS or similar, mechanically cleaned and deeply regenerated compacted activated sludge is 1: n, where n≥2.

Also, the achievement of technical results is influenced by the fact that in a sorption mixer or a preliminary treatment tank, the mixing of wastewater is carried out with a mixing device, without aeration.

Also, the achievement of technical results is influenced by the fact that deeply regenerated and compacted activated sludge, saturated with air oxygen in the aerobic stabilizer, and maintaining high oxygen concentrations up to 1-4 mg / l in the sludge compactor, enter the sorption mixer or preliminary treatment tank.

Also, the achievement of technical results is influenced by the fact that the centrate of liquid waste (after being in a sorption mixer or in a preliminary purification and phase separation tank) is sent to a biofilter with a ruff load, in which the processes of biosorption and biooxidation are implemented.

Also, the achievement of technical results is influenced by the fact that the filtrate is mixed with household and / or industrial wastewaters close to them in composition and then sent for biological treatment to the anoxide zone and then to the aerobic zone of the aeration tank, while the circulating sludge from the secondary settling tank is fed into the anoxide zone of the aeration tank, the nitrate-containing sludge mixture is fed from the aerobic zone of the aeration tank to the anoxide zone.

Also, the achievement of technical results is influenced by the fact that with the specified type of regeneration of activated sludge, the beginning of the endogenous phase of respiration begins, which increases its biosorption and oxidative activity with a simultaneous decrease in the volume of activated sludge supplied to the sorption mixer or preliminary treatment tank as a result of its increase in its concentration in sludge compactor.

With a volume ratio of liquid waste containing the disinfectant CHAMS or similar, mechanically cleaned and deeply regenerated compacted activated sludge 1: n, where n≥2, the greatest effect of neutralizing the disinfected substance CHAMS or similar is achieved and the concentration of organic substances and biogenic elements is reduced ...

With the specified method of mixing waste water and deeply regenerated excess sludge, electricity is saved while ensuring full accessibility of pollutants to the surface of the activated sludge.

With the inventive method, the activated sludge, which is fed into the sorption mixer or the preliminary treatment tank and regenerated within 15-48 hours, has a dose of 20 g / l due to compaction and has the highest sorption-oxidative activity, while the cleaning efficiency according to CHAMS at this stage is not less than: 85%; COD 72-75%; ammonium nitrogen 60-70%, phosphates 35-60%.

The method is carried out as follows.

Initial liquid waste with the following parameters: suspended solids 1168-3157 mg / l; COD 13069-19999 mgO / l; BOD ₅ 2991-5686 mgO ₂ / l; ammonium ion 1656.0-2176.9 mg / l; phosphate ion - 162.56-350.0 mg / l; CHAMS 396 mg / l is fed to the stage of mechanical cleaning and to the homogenizer, while at the stage of mechanical cleaning and averaging of the incoming liquid waste, coarse impurities are removed and liquid waste is accumulated for the possibility of their uniform subsequent dosing at the next stage, while in order to prevent rotting of the waste and the accumulation of reduced sulfur compounds in them as a result of this process, the incoming liquid waste is aerated in the homogenizer.

At the stage of processing in a sorption mixer or a pre-treatment tank, liquid waste is processed in a 1: n ratio, where n≥2, deeply regenerated for 15-48 hours, saturated with atmospheric oxygen and compacted to 98% moisture with activated sludge, with a dose of 20 g / l by dry matter. At this stage, the processes of sorption of the disinfectant CHAMS or similar are carried out, the sorption and biodegradation and biotransformation of organic substances and biogenic elements, while the load on the activated sludge according to BOD _{5 is} on average 19 mg / g⋅h. After this stage and the stage of phase separation on a screw thickener - dewatering agent, the centrate has the following parameters: suspended solids - 80-448 mg / l; COD - 2500-3168.3 mgO / l; BOD ₅ - 579.4-1098 mgO ₂ / l; ammonium ion - 552.1-856.0 mg / l; phosphate ion - 130.0-261.0 mg / l; CHAMS - 40-190 mg / l. At the stage of filtration of the centrate through the ruff loading, there is a decrease in suspended solids and additional purification due to biooxidation of pollutants by the immobilized biocenosis, in the filtrate the concentration of CHAMS is 26 mg / l.

The filtrate, pre-purified liquid waste is sent to the stage of mixing the filtrate with the total volume of household and or similar industrial wastewater in the receiving chamber in terms of composition, as a result, the pollution indicators have the following values: Suspended substances - 136 mg / l; COD - 1165 mgO / l; BOD ₅ - 355 mgO ₂ / l; Ammonium nitrogen - 82 mg / l; Nitrite nitrogen - 0.07 mg / l; Nitrate nitrogen - 0.45 mg / l; Phosphate ion - 33.5 mg / l; APAS - 5.9 mg / l; Oil products - 46 mg / l; Fat - 74 mg / l; CHAMS - traces. A mixture of household and processed liquid waste in a ratio of 25: 1 from the mixing chamber is fed to the anoxide zone of the aeration tank, and a nitrate-containing circulating sludge mixture from the aerobic zone of the aeration tank is supplied to the anoxide zone of the aeration tank, in which the nitrification process is carried out, the activated sludge concentration is 2.5- 5 g / l.

In the anoxide zone of the aeration tank, biooxidation of easily decomposable organic matter and the denitrification process take place, after the completion of the denitrification process, the sludge mixture is fed to the stage of aerobic treatment. At this stage, the load on the sludge is less than 0.05 gBOD / hila day, at the stage of aerobic treatment, the process of prolonged aeration is carried out and deep oxidation of organic substances and nitrification take place.

After the completion of the stage of aerobic purification, the sludge liquid for phase separation is fed to the secondary settler. To increase the efficiency of phase separation, in the secondary clarifier, thin-layer blocks are installed, the settled activated sludge is divided into circulating and excess. The circulating activated sludge is directed to the anoxide zone of the aeration tank. Excess activated sludge is sent to a regenerator, the concentration of sludge in which is 5-12 g / l, the mixing of the sludge liquid and its saturation with oxygen is carried out with air supplied by a blower. The concentration of dissolved oxygen in the air is maintained at 1-4 mg / l. Nadil liquid from the secondary settling tank is directed to the post-treatment facilities (at this stage, the post-treatment of waste water and phosphorus also takes place).

As a result of the implementation of the method, the quality of the treated wastewater meets the standards for treated wastewater discharged into fishery water bodies.

Purified water has the following composition:

- suspended solids - up to 3.0 mg / l;

- COD - up to 20 mgO ₂ / l;

- BOD ₅ - up to 3.0 mgO ₂ / l;

- ammonium nitrogen - up to 0.32 mg / l;

- nitrite nitrogen up to 0.08 mg / l;

- nitrate nitrogen up to 9.0 mg / l;

- phosphate ion - up to 0.6 mg / l;

- APAS - up to 0.5 mg / l;

- oil products - n / a;

- fats - n / a; CHAMS - n / a.

FIG. 1 shows a technological scheme for implementing the method.

The claimed method is implemented as follows: liquid waste is fed into a storage tank No. 1, in which a mixing mechanical device No. 2 is installed, and then by a centrifugal pump No. 3 is pumped for mechanical cleaning, for which a self-cleaning filtering device No. 4 is provided.

Further, mechanically cleaned liquid waste is fed in a gravity mode into a sorption mixer or pre-treatment tank No. 5, with a mixing device (submersible mixer) No. 17. The sorption mixer or preliminary treatment tank No. 5 is also fed with the help of the screw pump No. 16 deeply regenerated in the regenerator No. 6 with the aeration system No. 7 for 26 hours and the excess activated sludge compacted in the sludge compactor No. 8, supplied to the regenerator No. 6 from the secondary clarifier No. 14. The ratio of liquid waste and deeply regenerated activated sludge from sludge compactor # 8 is maintained at 1: 2.

In the sorption mixer or preliminary treatment tank No. 5, the inhibiting properties of liquid waste containing the CHAMS disinfectant are leveling due to the sorption of the CHAMS by the surface of the activated sludge and biotransformation of organic substances and biogenic elements.

From the sorption mixer or pre-treatment tank No. 5, the sludge liquid is fed by the screw pump No. 19 to the screw sludge dehydrator No. 11, then the centrifuge is fed to the biofilter with a ruff loading No. 12, in which biosorption and biodegradation of pollutants occurs, and then, the filtrate using a centrifugal Submersible pump No. 18 is sent to the intake chamber of the SPS No. 13, where it is mixed with household and industrial wastewater, then fed to the anoxide zone of the aeration tank No. 9, in which the processes of oxidation of easily oxidized organic matter and denitrification are carried out, and then directed to the aerobic zone of the aeration tank No. 10, in which the processes of deep oxidation of organic substances and nitrification are carried out. The dose of sludge in the aerotank is 3.5 g / l on dry matter basis. From the aerobic zone of aeration tank No. 10 to the anoxide zone of aeration tank No. 9, a nitrate-containing recirculation flow is directed, the recirculation coefficient is 5. Further, the sludge liquid is separated in a secondary clarifier equipped with thin-layer modules No. 14, the settled biologically treated waste water is sent for additional treatment to the post-treatment facility No. 15. Post-treatment of waste water removes residual contaminants from waste water. The quality of treated wastewater meets the requirements for the quality of wastewater discharged into fishery water bodies (see table). The activated sludge settled in the secondary settling tank No. 14 is divided into circulating sludge, directed by the centrifugal pump No. 16 to the anoxide zone of the aeration tank No. 9, the excess activated sludge is sent by the same pump No. 16 to the regenerator No. 6 with aeration system No. 7.

The table shows the results of analyzes of liquid waste and wastewater by treatment stages.

Below is an example of the implementation of the method.

At the Sheremetyevo airport there are treatment facilities for the treatment of domestic wastewater, after the receipt of liquid waste from the dry closets of aircraft, which is a liquid substance highly concentrated in organic substances nitrogen and phosphorus, containing a disinfectant (CHAMS), biocenosis of activated sludge, was inhibited, as a result of which the operation of the treatment plant became impossible.

To prevent the toxic effects of liquid waste, the claimed method was introduced on the operation of the treatment facilities, which made it possible to exclude the negative impact on the biocenosis of activated sludge from the biochemical treatment plant, to stabilize the operation of treatment facilities, to make it reliable and environmentally friendly.

Claims (7)

1. A method for biological treatment of liquid waste containing a disinfectant quaternary ammonium salts, together with household and / or industrial wastewater, including a stage of mechanical cleaning of liquid waste, a stage of processing liquid waste with deeply regenerated and compacted activated sludge, a phase separation stage followed by filtration of the centrate through the filter brush loading, the stage of mixing the filtrate with the total volume of household and / or similar industrial wastewater in the receiving chamber of the sewage pumping station, the stage of activated sludge treatment in the hydraulically communicating anoxide and aerobic zones of the aeration tank, the stage of post-treatment with by the preceding phase separation in the secondary settling tank, characterized in that the liquid waste containing the disinfectant quaternary ammonium salts is sent to mechanical cleaning, and then to the sorption mixer or pre-treatment tank, where I mix them t in a ratio of 1: n, where n≥2 by volume with compacted sludge, previously regenerated for 15-48 hours, depending on the age of the sludge, in the sludge compactor, the oxygen concentration is maintained at 1-4 mg / l, achieved by aerating the sludge liquid in aerobic stabilizer, from a sorption mixer or a preliminary treatment tank, the sludge liquid is directed to the stage of separation of the solid and liquid phases, the liquid phase - centrate - is sent to a biofilter with a ruff loading, then the filtrate is sent to the mixing chamber of the sewage pumping station for combining with household and / or industrial wastewater, and then the mixture is sent to the anoxide zone of the aeration tank to implement the denitrification process, the recirculated sludge mixture from the aeration zone of the aeration tank, in which the nitrification process is carried out, is also sent to this stage, circulating activated sludge from the secondary settling tank is also sent to this stage, a dose of sludge at the stages of anoxidic and aerobic treatment of waste x water in the aeration tank is 2.5-5 g / l on a dry matter basis, the sludge mixture from the aerobic zone of the aeration tank is sent to the secondary clarifier, the nadil liquid from the secondary clarifier is sent to the post-treatment facilities, the circulating sludge is sent to the anoxide stage of the aeration tank, excess active sludge is sent into the regenerator. 2. The method according to claim 1, characterized in that the waste water is mixed with excess, previously deeply, for 15-48 hours, regenerated and compacted activated sludge. 3. A method according to claim 1, characterized in that the ratio of liquid waste containing the disinfectant quaternary ammonium salts and the regenerated compacted activated sludge is 1: n, where n≥2 by volume. 4. The method according to claim 1, characterized in that in the sorption mixer or in the preliminary treatment tank, the wastewater is mixed with a mixing device, without aeration. 5. The method according to claim 1, characterized in that deeply regenerated and compacted activated sludge saturated with air oxygen in an aerobic stabilizer is fed into the sorption mixer or pre-treatment tank. 6. The method according to claim 1, characterized in that excess activated sludge is fed into the sorption mixer or pre-treatment tank with a dose of at least 20 g / l. 7. The method according to claim 1, characterized in that the centrate is directed to a biofilter with a ruff loading, in which the biocenosis is formed and the processes of biosorption and biooxidation are realized.

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