RU220013U1 - Domestic wastewater treatment plant - Google Patents

Abstract

The utility model relates to the field of wastewater treatment, namely, to the designs of devices that provide the treatment of domestic wastewater, and can be used for biological treatment of household wastewater and wastewater close to them in composition of detached buildings, infrastructure facilities and other autonomous sewer systems. The station contains a body. The housing is formed by a cylindrical container, inside which is located the central reservoir. Additional reservoirs are formed in the space between the inner surface of the container and the central reservoir by dividing it into parts with the help of partitions. In the housing, an inlet, an outlet and holes are formed for the passage of the flow between the tanks in accordance with the stages of purification. A pump is installed in the last additional tank according to the cleaning stages. The height of the water intake opening of the pump does not exceed the height of the opening in the partition between this and the previous additional tank. The outlet channel of the pump is connected to the outlet of the housing and brought out of the housing by an amount sufficient to remove wastewater above the groundwater level. The size of the outlet channel is chosen based on the level of groundwater. EFFECT: improving the operational properties of the station by eliminating the possibility of flooding the central reservoir. 1 ill.

Description

The utility model relates to the field of wastewater treatment, namely, to the designs of devices that provide the treatment of household wastewater, and can be used for complete biological treatment of household and wastewater close to them in composition of detached buildings, infrastructure facilities and others. autonomous (decentralized) sewerage systems.

Known building station for biochemical treatment of domestic wastewater [RF patent 145368, publ. 09/20/2014], containing a cylindrical container having at least one inlet and one outlet, inside which a cylindrical central tank is located coaxially to it, in the space between the said container and the tank by dividing it into at least four parts with the help of partitions, additional tanks are formed, and in the partition between the first additional tank and the additional tank adjacent to it, between the last mentioned and the central tank, in the partition between the next pair of additional tanks and between one of them and the central tank, through holes are made, while the partitions located at equal distances from each other, so that the volumes of all additional reservoirs formed are equal.

This well-known building station for biochemical treatment of domestic wastewater has a significant drawback. Since the outlet is located in that part of the hull that is in the ground during the operation of the station, if the groundwater level outside the station hull is higher than the level of the outlet, then the water will not be able to go out by gravity and. as a result, it will flood the central reservoir, which will lead to the failure of the entire station.

The technical result of this utility model is to improve the operational properties of the station by eliminating the possibility of flooding the central reservoir.

The specified technical result is achieved due to the fact that the domestic wastewater treatment plant contains a body formed by a cylindrical tank, inside which the central tank is located, and in the space between the inner surface of the tank and the central tank, by dividing it into parts with the help of partitions, additional tanks are formed , moreover, an inlet, an outlet and openings for the passage of flow between the tanks are formed in the casing in accordance with the stages of cleaning, in the last additional tank according to the stages of cleaning, a pump is installed, the outlet channel of which is connected to the outlet of the casing and brought out of the casing, and the height of the water intake of the pump does not exceed the height of the hole in the partition between this and the previous additional tank.

Possible options for the development of the main technical solution:

- the body contains a neck;

- the body contains a cover.

Such a new technical solution makes it possible to modernize the well-known domestic wastewater treatment plant in such a way that an increase in the operational properties of the station is achieved by eliminating the possibility of flooding the central tank, since the pump located in the last additional tank in terms of purification stages forcibly removes water from the station. Bringing out and adjusting the level of the outlet from the pump outlet channel allows water to be drained into the ground above the groundwater level, since the pump provides a forced withdrawal of water from the station and prevents flooding of the last additional tank in terms of cleaning stages and, consequently, the central tank.

The essence of the claimed utility model is illustrated by the following figure and description.

On FIG. 1 shows a diagram of the station (longitudinal scan, without cover).

The station for the treatment of domestic wastewater (Fig. 1) contains a body formed by a cylindrical container 1, inside which is a central tank 2.

In the space between the inner surface of the tank 1 and the central tank 2, by dividing it into parts with the help of partitions 3, additional tanks 4 are formed.

In the housing formed inlet 5, outlet 6 and holes 7 for the passage of the flow between the tanks 2, 4 in accordance with the stages of purification.

The pump 8 is installed in the last additional tank 4c according to the stages of cleaning, the outlet channel 9 of which is connected to the outlet 6 of the housing and brought out of the housing to a value specified during the operation of the station, sufficient to remove wastewater above the groundwater level. The outlet channel 9 can be made in the form of a flexible hose or a polymer tube. The size of the outlet channel 9 is selected based on the level of groundwater at the station installation site.

The height of the water intake hole of the pump 8 does not exceed the height of the hole 7g in the partition between this and the previous additional tank 4g.

The pump 8 can be installed using, for example, a shelf, bracket, holder, stand, in which holes can be made for water intake by the water intake hole of the pump 8.

The housing may contain a neck 10 and/or a removable lid (not shown in the figure), hermetically connected to the upper part of the cylindrical container 2. At the same time, it can have an additional inlet (not shown in the drawing) and/or an outlet (not shown in the drawing). ).

In this case, the outlet 6 from the body can be formed both in the cylindrical container 1 and in the neck 10 (not shown in the figure) and/or in the lid (not shown in the figure).

The principle of openings 7 between tanks 2, 4 is similar to that disclosed in RU patent No. 145368.

An example of the execution of the station body.

The space between the central tank 2 and the wall of the cylindrical tank 1 can be divided into at least four parts equal in volume using four partitions 3a, 3b, 3c, 3d to form four additional tanks 4a, 4b, 4c, 4d.

Moreover, the input 5 is made in the first additional tank 4a according to the purification stages. Exit 6 is made in the last additional tank 4c according to the purification stages. Inlet 5 and outlet 6 can be made in the form of holes provided with nozzles.

A through hole 7a is made in the partition 3a between the additional tanks 4a and 4b. Two through holes 7b and 7c are made between the additional tank 4b and the central tank 2. A through hole 7g is made in the partition 3c between the additional tanks 4c and 4d. Between the additional tank 4g and 4a in the wall (not shown in the figure) can be made through the hole (not shown in the figure). Between, for example, the additional tank 4g and the Central tank 2 is made through the hole 7e.

Above the bottom of the additional tank 4g, adjacent to the first additional tank 4a, under the through hole 7e between it and the central tank 2, a vertical channel 11 is formed. The vertical channel 11 can be formed, for example, from a pipe of any section and profile or a U-shaped channel to the outer surface of the central tank 2. An additional vertical channel 12 can be formed above the bottom of the central tank 2 under the through hole 7e, which can be made, for example, from a pipe of any section and profile or a U-shaped channel welded to the inner surface of the central tank 2 In the additional tank 4g, a vertical channel 13 can be formed under the through hole 7g. The vertical channel 13 can be formed, for example, from a pipe of any section and profile or a U-shaped channel welded to the surface of the additional tank 4g.

Technological openings can be made in the walls of the tanks, for example, for pipelines and hoses of air lifts, blowers (aerators), etc.

The housing can be made, for example, from metal, metal-plastic or plastic (fiberglass, polypropylene, polyethylene, polyvinyl chloride, etc.), as well as from another material that is resistant to aggressive environments, and can be equipped with grips (shown conditionally in the drawing) to ensure its movement.

It should be noted that the openings in the partitions can have corresponding nozzles that provide the required direction of flow of the treatment fluid in this housing (not shown in the drawing), and their location in height depends on the applied technological process for treating wastewater, for example, water and, a possible option for the direction of flows of these waters, one of them in this body is shown by arrows.

The proposed station operates as follows.

Wastewater through inlet 5 enters the primary settling tank-averaging tank - an additional tank 4a. There is sedimentation and clarification of wastewater. From there, the settled wastewater through the overflow - a through hole 7a enters the next additional tank 4b. This is where the process of denitrification takes place.

From the additional tank 4b, wastewater through overflows - a through hole 7b and 7c enter the aerotank - the central tank 2, where nitrification processes take place, from where they circulate by gravity into the additional tank 4d. The process takes place continuously, providing alternating cycles of aerobic and anaerobic cleaning. Mixing of sludge is carried out due to the constant circulation of water.

From the central tank 2, the treated effluents enter the secondary sump - an additional tank 4g through the hole 7e. Suspended sludge and foam cap in the central tank 2 is cut off by an additional vertical channel 12 located in the central tank 2, and when it enters the additional tank 4g, it is deposited by a settling column - a vertical channel 11, thus, the sludge immediately appears at the bottom of the additional tank 4g.

From the bottom of the additional tank 4g sludge with the help of an airlift (not shown in the drawings) returns to the primary sump-averaging tank - an additional tank 4a in order to settle excess sludge and enrich the incoming wastewater with activated sludge.

The treated sewage settled from the suspended sludge flows by gravity from the additional tank 4g to the additional tank 4c, from where, after further settling, the wastewater is removed from the treatment plant using the pump 8 through the hole 6. At the same time, the withdrawal of the output channel 9 from the pump 8 outside the housing outside the housing makes it possible to drain wastewater from the housing above the wastewater level.

Also, the treatment facilities can be supplemented with airlifts, for example, returning activated sludge from the additional tank 4d to the additional tank 4a and from the additional tank 4b to the additional tank 4a to enhance the circulation of the sludge. Other variants of wastewater circulation are also possible, as well as the addition of a station device with coagulant dosing systems.

Claims (7)

1. Station for the treatment of domestic wastewater, containing a housing formed by a cylindrical container, inside which the central reservoir is located, and in the space between the inner surface of the container and the central reservoir, by dividing it into parts with the help of partitions, additional reservoirs are formed, moreover, the inlet, outlet and holes are formed in the body for the passage of the flow between the tanks in accordance with the stages of purification, in the last additional tank according to the stages of cleaning, a pump is installed, the height of the water intake hole of which does not exceed the height of the hole in the partition between this and the previous additional tank, at the same time, the outlet channel of the pump is connected to the outlet of the housing and brought out of the housing by a predetermined amount sufficient to discharge wastewater above the groundwater level; for this, the size of the outlet channel is selected based on the level of groundwater at the station installation site. 2. Station for the treatment of domestic wastewater according to claim 1, characterized in that the housing contains a neck. 3. Station for the treatment of domestic wastewater according to claim 1, characterized in that the housing contains a cover.