UA68767A - Plant for biochemical purification of sewage water - Google Patents

Abstract

The plant for the biochemical purification of the sewage water consists of anoxic, aerobic, anaerobic-and-aerobic, and anaerobic areas and comprises the carrier with the immobilized microflora, the aerators, the final purification unit, and the pipe for the reverse sludge.

Description

Description of the invention

The invention relates to the field of biochemical purification of household and industrial waters containing organic pollutants, in particular, to tower-type installations using an inert carrier. for fixing microflora and can be used in communal economy and in various industries.

In the practice of wastewater treatment, a technology based on the use of activated sludge, which is subject to alternate exposure to aerobic and anaerobic conditions, is widely used. 70 The well-known tower-type bioreactor for wastewater treatment (Russian Patent Mo2019526, IPC СО2ЕЗ3/12, 1994), which is a combined structure that contains zones of aerobic oxidation, nitrification, denitrification, dephosphatation and secondary sedimentation of the sludge mixture in one cylindrical body.

The main drawback of this bioreactor is its low productivity 3-for a small number of active sludge microorganisms and the possibility of its removal from the bioreactor when it is overloaded or when the hydraulic load is disturbed when a large amount of wastewater is supplied.

Also known is the installation for biochemical wastewater treatment (Patent of Ukraine Mo43986, IPC СО2ЕЗ3/12, 2002), which contains a tower-type aerotank. The air tank is made in the form of a metal, reinforced concrete or plastic column. In the upper part of the aeration tank are placed: loading of inert materials, aeration pipes of the jet aeration units and a nozzle of the output purified water, which is connected to the nozzles of the jet aeration working fluid. The lower part is equipped with a sludge pipe with a discharge pipe.

The disadvantage of the installation is the complexity of its design. It is equipped with primary and secondary clarifiers, a separately placed aerobic bioreactor and has a sludge sealer. Structurally, such an installation is cumbersome and occupies a large area. In addition, denitrification processes are not carried out.

The closest to the claimed invention in terms of technical essence and adopted by us as a prototype is the installation for biochemical wastewater treatment with the simultaneous elimination of phosphorus and nitrogen from wastewater (Russian Patent "

Mo2136613, IPC SO2EZ/30, 1999). The installation includes stages of nitrification, denitrification and phosphorus release, which have aerobic, anoxic, anaerobic zones, floating microorganism carrier material and sequentially connected secondary treatment device and return sludge pipeline. To intensify the biological treatment of wastewater, the installation has a hydrolysis-acidification stage, which is made in the form of a floating layer filter and is divided into an anoxic, denitrification zone and an anaerobic phosphate release zone. The essence of this invention is that at certain stages, highly specialized microorganisms must be located in optimal environmental conditions, which are anoxic, anaerobic and aerobic zones. -

The disadvantage of the prototype is that the anoxic, aerobic and anaerobic zones are located in different buildings, which leads to a significant lack of carbon in the processes of biochemical oxidation of wastewater pollution. And this, in turn, leads to the slow implementation of the process of oxidation of organic and inorganic pollutants that come with raw sewage. In addition, the placement of these zones in different facilities leads to high consumption of electricity and the need for large areas for the placement of facilities with different zones of cleaning and post-cleaning. "

This installation can be taken as a prototype, because it solves the general problem of intensification of biological wastewater treatment with the claimed invention and has common essential features, namely: the installation has anoxic, aerobic and anaerobic zones, a carrier material with immobilized microflora , aerators, a post-treatment zone with" and a return sludge pipeline.

The basis of the claimed invention is the task of improving the installation for biochemical wastewater treatment by creating an additional oxidizing zone, which increases the intensification of cleaning and makes it possible to make it compact, and this, in turn, will lead to a reduction in capital costs and make it easier to service.

Ge | The task is solved due to the fact that the installation for biochemical wastewater treatment, which includes anoxic, aerobic and anaerobic zones, carrier material with immobilized microflora, aerators, post-treatment zone 7 and a return sludge pipeline, according to the invention, additionally has an anaerobic-aerobic zone, all 20 zones are located sequentially in one tower-type housing, while the anaerobic-aerobic zone is located between the anaerobic and aerobic zones, anaerobic-aderobic TM microflora is immobilized on the carriers in the aerobic-anaerobic zone, and the post-treatment zone is located coaxially with the anaerobic-aerobic and aerobic zones, and the return sludge pipeline is connected to the anoxic zone.

Placement of anaerobic, aerobic and transitional zones between them - anaerobic-aerobic - in one tower-type building 25 allows to intensify the process of deep cleaning of sewage entering the building. The presence of in the transition zone of anaerobic and aerobic microorganisms leads to the massive development of microorganisms of both associations as a result of their competition for possession of trophic space. Due to the immobilized biomass in the anaerobic zone and a large amount of biomass in the transition zone, the amount of carbon increases, which leads to the formation of a large amount of methane-consuming biomass in the aerobic zone. The sequential placement of zones in the tower-type housing 60 allows to intensify the process of wastewater treatment by 3-5 times due to the fact that all components of wastewater are used to obtain large biomasses of microorganisms in anaerobic and aerobic zones. At the same time, the coaxial placement of the deep post-treatment zone around the transitional and aerobic zones allows the use of spent activated sludge due to the sorption of the remaining nutrients and carbon that come with the purified water from the facility. Placement of cleaning and post-treatment zones in one facility is the most technological means of carrying out all processes of wastewater treatment continuously, at the same time, there is a consistent use of all nutrients by changing biocenoses, which are adapted to the consumption of pollutants in their zones with their determined concentration. Due to the constant feeding of the anoxic zone by microorganisms of excess sludge, which flows from the aerobic zone to the anoxic zone through the pipeline, the vital activity of the organisms of this zone is enhanced by enzymes and enzymes that are formed during the decomposition of all aerobic microorganisms.

The invention is explained by a drawing showing the installation.

The waste water treatment plant consists of housing 1, which is divided into zones. Anoxic zone 2 is located in the lower part of housing 1. Anaerobic zone 3 is located above it, which includes cassettes 4 with 70 immobilized anaerobic microflora. An anaerobic-aerobic zone 5 is placed above it, which includes cassettes 6 with immobilized anaerobic-aerobic microflora. Anaerobic-daierobic zone 5 is equipped with aerators 7 and 8. Aerobic zone 9 is placed above zone 5, which includes cassettes 10 with immobilized aerobic microflora. Coaxial to zones 5 and 9 is the post-treatment zone, which consists of sorption 11 and settling 12 zones. The lower parts of the sorption 11 and sedimentation 12 zones end with an accumulator 13/5 of spent sludge, which is equipped with a shut-off valve 14. The upper part of the sedimentation zone 12 is equipped with an outlet tray 15. Anoxic zone 2 is equipped with an inlet valve 16, which is connected to a sewage pump 17 , outlet valve 18 for releasing excess sludge and circulation pump 19.

The sludge accumulator 13 is connected to the anoxic zone 2 by means of a pipeline 20, which is equipped with a pump 21.

The installation works like this.

Wastewater is pumped into anoxic zone 2 by pump 17, where it is mixed with anaerobic sludge and oxidized to volatile fatty acids. Due to the arrival of new portions of wastewater in the anoxic zone 2, they rise up to the anaerobic zone C and pass through cassettes 4, which are loaded with polystyrene plates or other material on which anaerobic methanogenic microflora is immobilized. Next, the wastewater, saturated with methane and volatile fatty acids, passes through the anaerobic-aerobic zone 5, where cassettes b are placed, on which the anaerobic-aerobic microflora is immobilized. As a result of the antagonistic struggle between the two "anaerobic and aerobic associations, the processes of anaerobic purification of under-oxidized organic substances are intensified due to the massive development of anaerobic bacteria and the consumption of methane and volatile fatty acids by the methane-oxidizing aerobic microflora of cassette 6. The aerobic regime in zone 5 is maintained due to its M zo intensive blowing air with the help of aerator 7. From zone 5, partially purified water enters aerobic zone 9, which has its own aeration system 8 and cassettes 10, on the load of which immobilized aerobic ise) microflora, where autotrophic vegetation of microorganisms already prevails over heterotrophic processes of vegetation of microorganisms. Water purified from organic and inorganic impurities with excess activated sludge enters the sorption zone 11, where the remaining pollutants are sorbed by the suspended activated sludge, after which the spent activated sludge is stored in the accumulator 13, and the young activated sludge is returned to the anaerobic-aerobic zone 5. Purified water enters the ring tray 15, from where it is fed into a natural reservoir or for deep purification in biological ponds. Surplus sludge from storage tank 13 is pumped by pump 21 through pipeline 20 to pump residual pollutants into the anoxic zone for deep demineralization.

The excess oxidized sludge is discharged to the sludge platforms using a pipeline equipped with a valve 18. in c As can be seen from the operation of the installation, all technological processes of both biochemical and mechanical cleaning take place in one facility. The proposed device can work in full automatic mode. ;" (22) (ee) -And b 50 what

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Claims (1)

Formula of the invention (Se) Installation for biochemical wastewater treatment, containing anoxic, aerobic and anaerobic zones, carrier material with immobilized microflora, aerators, post-treatment zone and return sludge pipeline, which is distinguished by the fact that it additionally contains an anaerobic-aerobic zone, all zones are located sequentially in one tower-type housing, while the anaerobic-aerobic zone is located between the anaerobic and aerobic 7s zones, the anaerobic-aerobic microflora is immobilized on the carriers in the anaerobic-aerobic zone, and the post-treatment zone is located coaxially with the anaerobic-de-aerobic and aerobic zones zones, and the return sludge pipeline and . - НЯ а а is connected to the anoxic zone. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integral FO microcircuits", 2004, M 8, 15.08.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. (ee) -And (o) that 60 b5