UA125355C2 - Local plant for the biological purification of wastewater - Google Patents

Abstract

The invention relates to the biological treatment of wastewater. A local plant for the biological purification of wastewater comprises a housing with channels for supplying and removing liquid and units of anaerobic bioreactor arranged in series in the form of an overflow cascade, an aerobic bioreactor, an afterpurification bioreactor. The unit of anaerobic bioreactor and the unit of afterpurification bioreactor are provided with carriers of the attached microflora. The plant comprises devices for recirculating active sludge between units. The unit of anaerobic bioreactor is made in the form of two hydraulically connected chambers arranged with the possibility of circulating fluid between them, one of the chambers comprises a big-bubble aerator and the other one comprises a carrier of the attached microflora. A unit of aerobic bioreactor consists of at least two chambers arranged in series with aerators, the last chamber is made with a preliminary settling zone limited by at least one inclined rib. The plant additionally contains means for forced successive liquid supply from the chamber to the chamber of the aerobic bioreactor unit, and from the last chamber of the aerobic bioreactor unit to the afterpurification bioreactor unit.

Description

(54) LOCAL INSTALLATION OF BIOLOGICAL WASTEWATER TREATMENT (57) Abstract:

The invention relates to the biological treatment of wastewater and can be used for the treatment of domestic and near-domestic industrial wastewater that comes from residential, public or other facilities not connected to a centralized sewage system. The local installation of biological wastewater treatment includes a case with liquid supply and discharge channels and blocks of an anaerobic bioreactor, an aerobic bioreactor, and a post-purification bioreactor arranged sequentially in the form of an overflow cascade. At the same time, the anaerobic bioreactor unit and the post-purification bioreactor unit are provided with carriers of attached microflora, in addition, the installation contains active sludge recirculation devices between the units. The anaerobic bioreactor block is made in the form of two hydraulically connected chambers, provided with the possibility of liquid circulation between them, one of the chambers contains a large bubble aerator, and the other - a carrier of attached microflora, the aerobic bioreactor block consists of at least two sequentially placed chambers with aerators, the last of which made with a zone of pre-settling limited by at least one inclined edge. In addition, the installation additionally contains forced means of sequential supply of liquid from the chamber to the chamber of the aerobic bioreactor unit, and from the last chamber of the aerobic bioreactor unit to the purification bioreactor unit. 2 17 18 y raftu a i dn h ra i ra pa r ach that A H y

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The invention relates to the biological treatment of wastewater and can be used for the treatment of domestic and near-domestic industrial wastewater that comes from residential, public or other facilities not connected to a centralized sewage system.

A well-known installation for biological wastewater treatment (Patent of Ukraine Mo 41428, IPC

СО2Е 3/00, 3/12, publ. 17.09.2001), which contains a housing consisting of three connected chambers: an averaging chamber - with a sewage inlet, an activation chamber - with an aeration device connected to a compressor unit, and a settling chamber - with a purified water outlet.

At the same time, the installation is equipped with circulation channels and pumps, namely for supplying wastewater from the averaging chamber to the activation chamber and for pumping excess sludge from the activation chamber and settling chamber back to the averaging chamber. In addition, the installation contains a level gauge, for example, a float gauge to regulate the operation of the installation in case of uneven flow of sewage.

The disadvantage is that in the known installation only one means of aeration is used, and the flow of the liquid being cleaned between the tanks in the installation is forced, which will lead to flooding of the installation with sewage in case of a long-term absence of power supply. Another drawback is the fact that the continuous operation of the compressor unit is required to ensure the continuity of the cleaning process, which significantly reduces the resource of its operation and causes high energy costs.

Also known is the installation for the deep biological treatment of wastewater (Russian Patent No. 2220918, IPC СО2Р 3/30, publ. 10.01.2004), which includes water supply pipelines for cleaning and removal of purified and disinfected water, a pneumatic aeration system, and an anaerobic bioreactor installed in series with a carrier of attached microflora, an aerobic bioreactor, a clarifier equipped with an airlift with an active sludge recirculation pipeline, a bioreactor for further purification with a carrier of attached microflora and a decontamination chamber. The design of the installation is made in the form of a cascade, that is, with the possibility of free flow of wastewater through a cascade of sequentially placed bioreactors. This installation is the closest to the claimed invention and is considered the closest analogue.

The disadvantage of the closest analogue is the low level of wastewater treatment in the case of sudden or volleying of wastewater, due to the washing out of activated sludge during cascade execution

From the design of the installation. In addition, the use of one aerobic chamber, with uneven supply of wastewater and fluctuating temperatures, contributes to the formation of filamentous bacteria and swelling of activated sludge in the settling zone, which, accordingly, adversely affects the quality of wastewater treatment.

The invention is based on the task of creating a local installation for effective deep biological treatment of wastewater in the conditions of its critical unevenness entering the installation, and ensuring its continuous functioning autonomously, in conditions of unstable power supply.

The task is solved by the fact that in a local installation of biological wastewater treatment, which contains a case with liquid supply and discharge channels and blocks of an anaerobic bioreactor, an aerobic bioreactor, and a post-purification bioreactor arranged sequentially in the form of an overflow cascade, while the anaerobic bioreactor block and the post-purification bioreactor block are provided carriers of attached microflora, in addition, the installation contains devices for recirculating activated sludge between blocks, according to the invention, the new thing is that the anaerobic bioreactor block is made in the form of two hydraulically connected chambers, provided with the possibility of liquid circulation between them, one of the chambers contains a large bubble aerator , and the other is a carrier of attached microflora, the aerobic bioreactor unit consists of at least two chambers with aerators placed in series, the last of which is made with a pre-settlement zone limited by at least one inclined edge, in addition, the installation additionally contains forcing means and sequential supply of liquid from the chamber to the chamber of the aerobic bioreactor unit, and from the last chamber of the aerobic bioreactor unit to the purification bioreactor unit.

In the optimal design of the device: - ZVE reactors are used in the chambers of the aerobic bioreactor unit. - the connection of the chambers of the anaerobic bioreactor unit is provided with a bottom channel; - an airlift is used as a device for recirculation of activated sludge and a forced means of water supply.

The causal relationship is as follows.

The sequential use of at least two aerobic reactors ensures the process of high-quality deep biological wastewater treatment. And the implementation of an anaerobic bioreactor, according to the invention, will allow for constant mixing of the liquid (a mixture of activated sludge and sewage) when receiving sewage of different composition. At the same time, in the anaerobic bioreactor there is a constant averaging of wastewater, its grinding with a large bubble aerator and preliminary cleaning using carriers of attached microflora. This reduces the load on the adaptation of activated sludge to unevenness in time and composition of the incoming wastewater, and levels the unevenness of the load on activated sludge in the next treatment zone (aerobic bioreactor). In addition, mixing contributes to the constant presence of the mixture of activated sludge and wastewater in a suspended state, which minimizes the sedimentation of sludge to the bottom of the chambers.

Making the case in the form of an overflow cascade will allow the installation to work as a multi-section overflow anaerobic septic tank, which in case of a lack of electricity will ensure wastewater treatment and removal of treated water without the risk of flooding the entire installation and removal of active and surface sludge along with wastewater.

In addition, the presence of a pre-settlement zone in the aerobic chamber eliminates the risk of washing out active and surface sludge in the event of a sudden or volley of sewage.

In this way, the technical result is achieved - the creation of a local installation for deep biological treatment of wastewater in the conditions of its critical unevenness of entering the installation, which is inherent in structures that are not connected to the centralized sewage system, and ensuring the continuous autonomous functioning of the installation in conditions of unstable power supply.

The essence of the invention is explained by the drawing, which schematically depicts the claimed installation.

A local installation for the biological treatment of wastewater, which contains a housing 1 with a channel for the supply of wastewater 2, a channel for the removal of purified liquid, and blocks of an anaerobic bioreactor, an aerobic bioreactor, and a post-purification bioreactor arranged sequentially in the form of an overflow cascade.

The block of the anaerobic bioreactor is made in the form of two hydraulically connected, for example, with the help of a bottom channel 4, chambers 5, 6. In one of the chambers 5 is installed a basket-catcher 7 for separating insoluble waste and a large bubble aerator 8 for grinding large soluble waste. Another camera would be made with the carrier attached

From microflora 9, for example, in the form of a mesh biological load.

The aerobic bioreactor block is made of at least two sequentially placed chambers 10, 11 with aerators 12. At the same time, in the optimal design of the installation, 5VEK reactors are used in chambers 10, 11 of the aerobic bioreactor block. On the chair. an installation with a minimum number of chambers of an aerobic bioreactor block is presented. In this case, the last one, when the cameras are placed sequentially, is the camera 11. Therefore, this camera 11 is made with a pre-settling zone 13, limited by at least one inclined edge 14.

The post-purification bioreactor block 15 is equipped with carriers 16 of the attached microflora and a channel for removing the purified liquid.

The installation is equipped with active sludge recirculation devices 17 between the chambers of the anaerobic bioreactor, aerobic bioreactor and post-purification bioreactor 15. In addition, the installation additionally contains forced means 18 of sequential liquid supply from the chamber to the chamber of the aerobic bioreactor unit, and from the last chamber 13 of the aerobic bioreactor unit to the unit bioreactor of post-purification 15. An air lift was used as a device for recirculating activated sludge and a forced means of water supply.

The installation is equipped with a software-hardware module 19, which, according to the time cycle, controls all modes and work processes by turning on or off the compressor (not shown), aerators 8, 12, liquid pumping devices 17, 18, and does not require additional intervention by service personnel or consumer

The local plant for biological wastewater treatment works as follows.

Domestic or commercial wastewater through the supply channel 2 enters the chamber 5 of the anaerobic bioreactor unit, in which insoluble waste is separated with the help of the installed catcher basket 7, which is regularly removed and disposed of. In addition, the chamber 5 is equipped with a large-bubble aerator 8, which performs the function of grinding and mixing incoming wastewater and return activated sludge from chambers 10, 11 of the aerobic bioreactor during recirculation. Upon arrival of a new portion of wastewater, pre-cleaned and mixed with return activated sludge flows through, for example, the bottom channel 4 from the chamber 5 into the chamber 6, in which the carrier of the attached microflora 9 is installed.

In the aeration phase in chambers 10, 11 of the aerobic bioreactor, between chambers 5 and 6, mixing of incoming wastewater and return activated sludge takes place, maintaining the mixture in a suspended state, which maximally averages the concentration of wastewater that entered the installation and minimizes the possibility bottom sediments.

The averaged and pre-purified wastewater from chamber 6 of the anaerobic treatment unit by overflow enters the first 10 sequentially placed chambers of the aerobic bioreactor unit, in which in the mode of forced continuous or intermittent aeration (according to z.p.f. 2) and simultaneous recirculation by devices 17 of activated sludge from chamber 10 to chamber 5 or chamber 6 of the anaerobic bioreactor unit, the main biological treatment of wastewater takes place. Next, the wastewater enters the next consecutively placed chamber for further treatment according to the same principle - continuous or intermittent aeration and recirculation of activated sludge.

At the same time, after the wastewater mixture enters the last chamber 11 of the aerobic bioreactor unit, the same level of liquid is established in all previous chambers, the difference in volume between the water level and the level of the overflow holes provides the necessary volume for acceptance of the volley discharge of wastewater, and the denitrification phase begins, with which stops aeration and recirculation of activated sludge in all chambers.

After the cleaning is completed, in the last sequentially placed chamber (on the chair. This is chamber 11), the aeration is stopped, and the purified water is settled in the pre-settlement zone 13, limited by at least one inclined edge 14. The purified and pre-settled liquid by any known means ( by transfusion or forced means 18) is moved to the chamber of the post-purification bioreactor unit 15, in which, due to the passage of purified water through the carriers of the attached microflora 16, the final biological post-purification of the water and the further removal of the clarified and purified species through the discharge channel takes place

C. The movement of the settled liquid from the chamber 11 of the aerobic bioreactor unit to the post-purification bioreactor chamber is limited to the minimum set level of the remaining liquid in the chamber 11.

As mentioned above, in the event of a power outage, the installation works according to the principle of a multi-section overflow anaerobic septic tank due to the cascade execution of chambers.

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Claims (4)

FORMULA OF THE INVENTION 1. A local installation of biological wastewater treatment, containing a housing with liquid supply and discharge channels and blocks of anaerobic bioreactor, aerobic bioreactor, post-purification bioreactor arranged sequentially in the form of an overflow cascade, while the anaerobic bioreactor block and the post-purification bioreactor block are provided with carriers of attached microflora, except in addition, the installation contains devices for recirculation of activated sludge between the blocks, which is distinguished by the fact that the block of the anaerobic bioreactor is made in the form of two hydraulically connected chambers, provided with the possibility of liquid circulation between them, one of the chambers contains a large bubble aerator, and the other - a carrier of attached microflora, the aerobic bioreactor unit consists of at least two chambers with aerators placed in series, the last of which is made with a pre-settlement zone limited by at least one inclined edge, in addition, the installation additionally contains forced means of sequential supply of liquid from the chamber to the chambers and the aerobic bioreactor unit, and from the last chamber of the aerobic bioreactor unit to the post-purification bioreactor unit. 2. Local installation of biological wastewater treatment according to claim 1, which differs in that variable action reactors (ZVK reactors) are used in the chambers of the aerobic bioreactor unit. 3. Local installation of biological wastewater treatment according to claim 1, which differs in that the hydraulic connection of the chamber of the anaerobic bioreactor unit is provided with a bottom channel. 4. Local installation of biological wastewater treatment according to claim 1, which differs in that an air lift is used as an active sludge recirculation device and a forced means of water supply.