RU197273U1 - COMPACT WASTE WATER Averager - Google Patents

Abstract

The utility model relates to wastewater treatment technology and can be used for the treatment of domestic and industrial wastewater close to them in composition. The technical result of the claimed utility model is to increase the efficiency and quality of wastewater treatment with a significant reduction in plant failure, reducing the frequency and complexity of maintenance. To achieve the technical result, a compact averager of domestic wastewater is proposed, located in the receiving compartment of the treatment plant, which includes a housing that is a removable tank with perforated walls and a bottom, equipped with an opening for the sewage supply pipe, hair collectors and a coarse bubble aerator, rigidly fixed to the housing so that air is supplied under the bottom of the housing, with the lower parts of the walls of the housing located below the bottom and made solid (without perforation).

Description

The utility model relates to wastewater treatment technology and can be used to purify household and industrial wastewater close to them in composition.

A storage tank for a wastewater treatment device (patent for the invention No. RU2307076 dated November 14, 2005) is known from the state of the art. It contains an angular biofilter made in the form of a perforated vertical cylinder, in the lower outer zone of which there is a large-bubble aerator, and a discharge pipe is placed inside it and an internal aerator, the tank body is equipped with a waste water inlet, a bottom aerator and a pump for pumping sludge are located in the storage tank, characterized in that the vertical the cylinder in the lower inner zone is equipped with a disk plug separating the vertical cylinder into the upper and lower compartments, holes are made in the wall of the lower cylinder compartment, and the outlet end of the coarse-bubble aerator is located in the lower compartment of the vertical cylinder, and the internal aerator is connected to the outlet pipe to form an airlift while they are located in the upper compartment of the vertical cylinder, equipped with an additional coarse bubble aerator located inside the vertical cylinder, and the lower end of the ADDITIONAL krupnopuzyrchatogo aerator is chamfered at an angle of 45 ° and is located directly above the disc stopper, and the upper end is provided with a tee krupnopuzyrchatogo aerator with a pressure sensor, wherein the biofilter is provided with angular biological load situated in the zone of perforations of a vertical cylinder.

A device for wastewater treatment is also known (patent for the invention No. RU2305662 dated 01/31/2006), comprising a housing with a sealed lid, in which an equalizing reservoir containing activated sludge is provided, equipped with an inlet of sewage, an emergency sensor, aerators-mixers and communicating with activation the reservoir by means of an overflow nozzle located in the bottom zone of the separation wall of the equalization and activation reservoirs, while in the activation reservoir there is a fine bubble aerator, tubular a well with a main pump and an internal aerator, a coarse bubble aerator for external blowing of a tubular well, the walls of the tubular well in the middle zone being perforated and surrounded by a shell made in the form of a cylinder with a lower end located in the socket, the smaller base of which is hermetically fixed to the outer the wall of the casing of the tubular well, the aeration tank equipped with a fine bubble aerator, a sludge recirculation pump and a partially purified water circulation pump communicating with it are secondary the first sump, equipped with a damper for incoming partially purified water, an output filter, an outlet pipe for clean water, a biofilm aerator-breaker, a biofilm removal pump made in the form of a J-shaped pipeline, one end of which is located below the outlet filter zone, and the second end is above the outlet filter zone in the upper part of the aeration tank, a sludge stabilization chamber equipped with a sludge damper and aerator-mixers located in its bottom region, while the sludge stabilization chamber is interconnected with the equation the reservoir through the overflow pipe, a control unit, a compressor and turbophase distributors of the first and second phases connected by air ducts for supplying air to aerators and pumps.

The disadvantages of these devices are their high accident rate, associated with the lack of means for grinding large contaminants in the receiving compartment of the unit, as well as the influx of wastewater into perforated containers by gravity through perforations, which does not allow for the removal of the bulk of the contaminants inside these containers.

As a prototype, we consider an installation for treating household wastewater (utility model patent No. RU81721 dated 11/14/2008), containing a trellised container, a unit of hydrocyclones, a water flow averager, a loading anoxide reactor, a loading aeration tank, a clarifier with a suspended sediment layer , biofilter, biosorber, disinfectant, reagent dosing unit, pipelines, pumps, compressor, shut-off and control elements installed on the pipelines, the sewage supply pipeline is connected to the inlet of the water flow averager, and the purified water drain pipe is connected to the disinfectant outlet, characterized in that the lattice container and the hydrocyclone unit are located in the water flow averager associated with the anoxide reactor, connected through an appropriate partition with an aeration tank, divided into two parts by a partition with a bottom bypass, while the aeration tank is connected through a pipeline passing through the separation wall to a clarifier, which is connected through the corresponding pipe passing through the separation burnout with a biofilter connected, in turn, through a pipeline passing through the corresponding dividing wall, with a biosorber connected to a disinfectant, a reagent dosing unit is connected to the sewage water supply pipe from the averager to the anoxide reactor, while the aeration tank and the biofilter are equipped with an aeration system containing a compressor, the output of which is connected through appropriate pipelines with aerators, the anoxide reactor contains a fine bubble aerator, the clarifier is equipped with an airlift to return the act vnogo sludge in the anoxic reactor averager water flow system equipped with a hydraulic stirring and biofilter, clarifier and anoxic reactor equipped removal system of the wash water and activated sludge.

The disadvantage of the prototype is the lack of coarse aeration in the receiving compartment of the installation, which significantly reduces the efficiency of wastewater treatment.

The task to which the claimed technical solution is directed is to eliminate the above disadvantages.

The technical result of the claimed utility model is to increase the efficiency and quality of wastewater treatment with a significant reduction in plant failure, reducing the frequency and complexity of maintenance.

To achieve the technical result, a compact averager of domestic wastewater is proposed, which is located in the receiving compartment of the treatment plant, including a housing, which is a removable tank with perforated walls and a bottom, equipped with an opening for the sewage supply pipe, and a large-bubble aerator rigidly fixed to the housing so so that air is supplied under the bottom of the body, and the lower parts of the walls of the body are located below the bottom and are solid (without perforation).

The essence of the utility model is illustrated in the drawing.

Figure 1 shows a diagram of a compact averager of domestic wastewater, where:

1- sewage supply pipe;

2- case with perforation;

3 - coarse aerator;

4- receiving compartment of the treatment plant;

5- lower parts of the walls of the housing;

6-removable lever.

The compact averager of domestic wastewater includes a housing 2, which is a reservoir, preferably made of polypropylene, with perforated walls and a bottom, mounted on the waste water supply pipe 1 in the receiving compartment of the treatment plant 4. The large-bubble aerator 3 is rigidly fixed to the housing 2 in this way that air is supplied under the bottom of the housing. The lower parts of the walls 5 of the housing 2 are located below the bottom and are solid (without perforation).

The averager is mounted on the inlet pipe 1 of the receiving compartment 4 of the treatment plant, which goes 5-6 cm inside the receiving compartment of the plant and is fixed with a special removable lever 6, abutting against the opposite wall of the receiving compartment 4 of the treatment plant, pressing the averager against the casing of the treatment plant and rigidly fixing it in a given position. This design provides ease of removal of the averager from the treatment plant during its maintenance.

The compact averager is a perforated mini-tank isolated from the entire volume of the receiving compartment of the treatment plant, occupying no more than 7% of its volume. It is located in the upper part of the receiving compartment with a large-bubble aerator (hereinafter KPA) specially provided for it and located below it.

Due to the decrease in the volume of the averager, as well as due to the operation of the KPA specially allocated for it, the intensity of the effluent mixing is increased. The high intensity of mixing leads not only to more intensive averaging of wastewater, but also to grinding of large contaminants contained in the effluent, which further increases the degree of homogeneity of the wastewater and contributes to its better cleaning.

One of the walls of the casing of the averager adjacent to the casing of the unit can repeat its geometric shape, due to which the averager takes up less space in the receiving compartment of the treatment plant.

The averager has a perforated bottom and at least three perforated side walls with optimal placement and optimal hole sizes, depending on the size of the installation and the nature of the contamination of the effluent, while the lower parts of the walls (preferably 10 cm) are solid without perforation and are located below the case day, forming a space under the bottom of the casing, into which air enters from the CPA.

KPA is located relative to the averager body under the bottom in such a way that it creates an active rotation of the wastewater along a vertically closed ring, which contributes to faster and more efficient grinding of contaminants with minimal air consumption, due to the fact that KPA is surrounded by solid walls on four sides and almost all air is consumed for aeration of the averager without loss.

In order for the KPA to strictly maintain a predetermined position relative to the averaging case, it is rigidly fixed directly to the averaging case and forms a single integral structure with it. Thus, when removing the averager from the installation, the KPA is simultaneously removed, which greatly facilitates its inspection and cleaning.

The compact averager is located in the receiving compartment relative to the operating level of the effluent so that it captures all the air from the KPA to ensure the maximum possible acceleration dynamics of the waste fluid inside the averager body. The depth of immersion in the waste fluid at an established working level of effluents is 30 cm.

On the two side walls of the averager, special hair collectors are provided that hold up to 70% of the hair contained in the drains. Being placed directly at the “entrance” to the treatment plant, hair collectors provide protection against clogging of the hairs of all internal devices of the treatment plant through which drains pass sequentially during the cleaning process.

A compact averager of domestic wastewater works as follows.

The wastewater enters the averager through an inlet pipe passing through a hole in the rear wall of the averager body, which is continuous and adjacent to the body of the treatment plant, using intensive aeration in a limited volume, the process of mixing and grinding wastewater inside the averager body begins. Wastewater turns into a substantially homogeneous substance that does not contain large fractions, which contributes to an even more effective treatment of effluents and to accelerate the cleaning process. The supply of wastewater to the housing through the side wall makes it possible to close it with a tight lid on top, thereby creating a closed space inside the averager, in which all large biodegradable debris contained in the untreated wastewater is captured, accumulated and stored without the possibility of leakage during overflow sewage treatment plant. The accumulated large non-degradable debris is easily removed from the averager after removing it from the treatment plant.

Due to the intensive coarse aeration in a limited volume, mixing, averaging and grinding of the effluent is most effective. At the same time, the hair and large non-decomposable garbage are accumulated and held in the averager, which are the main cause of accidents in sewage treatment plants, which increases the reliability of the installation and helps to reduce the accident rate.

The analysis of patent and scientific and technical literature did not reveal technical solutions with a similar set of essential features, which allows us to conclude that the criterion of "novelty" of the claimed utility model is met.

Claims (3)

1. A compact averager of domestic wastewater, placed in the receiving compartment of the treatment plant, comprising a housing, which is a reservoir with perforated walls and a bottom, characterized in that it has an opening for a sewage supply pipe and a coarse-bubble aerator, and the lower parts of the walls of the housing are located below the bottom, made solid and form a space under the bottom of the housing, and the coarse bubble aerator is rigidly fixed to the housing so that air is supplied under the bottom of the housing to that space. 2. The compact averager of domestic wastewater according to claim 1, characterized in that hair collectors are installed on the walls of the housing. 3. The compact averager of domestic wastewater according to claim 1, characterized in that the body volume is not more than 7% of the volume of the receiving compartment of the treatment plant.

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