RU2819491C1 - Domestic waste water biological treatment plant recirculation unit - Google Patents

Abstract

FIELD: biological treatment of household waste water.

SUBSTANCE: recycling unit of a station for biological treatment of domestic waste water contains a pump connected to a sprinkler, a biofilter and an aeration device. Aeration device is made in the form of an ejector. Ejector comprises the first vertical pipe, one end of which is connected to the pump, and the other end is connected to the T-piece. Direct outlet from the T-piece is connected to the sprinkler by the second vertical pipe. Perpendicular outlet of the T-piece is connected to a horizontal pipe with its free end connected to a downward turn. Third vertical pipe is connected to the bend, on the free end of which there is a bend for turning. Pipe with internal narrowing made in the form of a piece of pipe of smaller diameter at the point of connection with direct inlet of the second T-piece is connected to the branch. Perpendicular outlet of the second T-piece is connected to the air intake pipe. Direct outlet of the second T-piece is intended for outlet of water-air mixture.

EFFECT: appearance of a new air supply source, which is equivalent to the use of a membrane compressor and a fine-bubble aerator, with an air capacity of up to 40 liters per minute, as well as maximum reduction of hydraulic load on biofilter, increase of pump efficiency, stability of its operation and service life, as well as reliability of station operation.

1 cl, 2 dwg

Description

The present invention relates to the field of domestic wastewater treatment and is intended for use as a structural element of individual treatment facilities.

Currently, a station for deep biochemical treatment of household wastewater is known, containing a three-section housing, a bioreactor with a biofilter located above a three-section settling tank and a recirculation unit consisting of a circulation pump connected to a bioreactor sprinkler (see RU 130603 U1 dated March 12, 2013) .

The disadvantages of this technical solution include the inefficient use of pump power, since the minimum possible performance of drainage pumps produced in mass quantities is much higher than that required to supply water to the biofilter, as a result of which the pump operates under high resistance due to narrowing and at the same time there is an increased hydraulic load on the biofilter and leaching of biofilm, which also reduces the quality of wastewater treatment. In addition, there is no additional saturation of the purified water with oxygen in the chambers of the housing.

The closest to the patented solution is a recirculation unit for a biological treatment plant for domestic wastewater, containing an irrigation element made in the form of a tube with holes, located in the upper part of the device, in the aeration chamber above the biofilter, and connected to a submersible drainage pump, as well as an aerator , located in the cleaning chamber and connected to the compressor (see RU 181421 U1 dated 04/11/2018).

The main disadvantages of the prototype include the use of two separate devices for recycling treated wastewater: a pump and a compressor. At the same time, the minimum possible performance of drainage pumps produced in mass batches is much higher than that required to supply water to the biofilter, as a result of which the pump operates under greater resistance due to the narrowing of the pipeline and at the same time there is an increased load on the biofilter and washing out of the biofilm. The design of the sprinkler, made in the form of a perforated pipe, requires regular maintenance of this unit due to clogging or growth of biomass in the holes.

The technical problem to be solved by the proposed invention is to create a simple and reliable recirculation unit that ensures stable operation of a biological wastewater treatment plant with minimal energy consumption of the station and makes it possible to improve the quality of wastewater treatment by simultaneously supplying treated water through a sprinkler to a biofilter and additional aeration wastewater in a septic tank using just one pump.

The technical result achieved in this case is

- the emergence of a new source of air supply with characteristics equivalent to the use of a membrane compressor and a fine-bubble aerator, with an air capacity of up to 40 liters per minute,

- to minimize the hydraulic load on the biofilter, which has a positive effect on its operation and allows us to consider this unit a biofilter with additional aeration of the recirculating flow, and not a mechanical aerator,

- in making the sprinkler in such a way that it does not become overgrown, clogged and does not require maintenance.

In addition, it is possible to increase the efficiency of the pump of a biological treatment plant for domestic wastewater, increasing the stability of its operation, service life, and the efficiency of the recirculation unit.

The technical result is achieved due to the fact that the recirculation unit contains a pump connected to a sprinkler, a biofilter and an aeration device.

What is new, according to the present invention, is that the aeration device is made in the form of an ejector, which contains a first vertical pipe, one end of which is connected to the pump, and the other end is connected to the first tee, the direct outlet from the first tee is connected by a second vertical pipe to the sprinkler , the perpendicular outlet from the first tee is connected to a horizontal pipe, the free end of which is connected to a bend for turning down, a third vertical pipe is connected to the bend, a bend for turning is installed at its free end, a pipe with a narrowing made in the form of a smaller piece of pipe is connected to the bend diameter at the junction with the direct inlet of the second tee, the perpendicular outlet of the second tee is connected to the air intake pipe, and the direct outlet of the second tee is intended for the outlet of the water-air mixture.

Thanks to the presented design of the recirculation unit - a system for assembling pipes in the specified manner and directing the excess pump capacity to the second flow, the efficiency of the circulation pump (its operating efficiency), the stability of its operation and service life increase, because it operates without additional resistance, which leads to increased reliability of the cleaning station. In addition, the efficiency of the biofilter increases due to a decrease in the hydraulic load on the biofilm due to a decrease in the amount of water supplied from the pump and the cessation of washing out of the biofilm from the biofilter due to the high pressure of the purified water from the pump. The load on the pump is also stabilized, it operates at full power, and the excess capacity is transferred to supply the water-air mixture into the station chamber, while increasing the saturation of the purified water with oxygen and increasing the oxidizing capacity of the installation without the use of additional equipment - a compressor.

In particular, the first vertical pipe, one end connected to the pump, has a diameter of 40 mm and a length of 1000 to 2200 mm, the pipe connecting the first tee to the sprinkler has a diameter of 40 mm, the horizontal pipe connected to the perpendicular outlet of the first tee has a diameter of 25 mm, the third vertical pipe is made with a length of 300-380 mm and a diameter of 25 mm, the pipe connected to the direct entrance of the second tee is made with a diameter of 25 mm and narrowed to 20 mm, the air intake pipe is made with a diameter of 25 mm, which further increases operating efficiency pump, aeration efficiency and reliability of the biological treatment plant for domestic wastewater.

Thus, the proposed set of essential features is necessary and sufficient for the proposed device to realize its purpose and achieve the stated technical result.

Next, the proposed invention will be disclosed in more detail, with reference to graphic materials that depict a schematic diagram of the proposed device.

The claimed invention is illustrated by drawings.

In fig. Figure 1 shows a diagram of the recirculation unit in a particular case of its implementation.

In fig. 2 - diagram of the assembly of the recirculation unit in a particular case of its implementation.

According to the figures of the claimed invention, the recirculation unit contains a pump 2 connected to the sprinkler 5 through a specially shaped ejector. The ejector contains the main line - the first vertical pipe 1, one end connected to the submersible pump 2, and the other to the direct input of the first tee 3. The direct output of the first tee 3 is connected through the second vertical pipe 4 to the sprayer 5 of the purified water above the biofilter 6. At an angle 90 degrees from the first tee 3 there is a branch - the first horizontal pipe 7, the free end of which is connected to the bend (elbow) 8 for turning 90 degrees downwards, the third vertical pipe 9 is connected to the bend, the free end of which is connected to the bend 10 for turning, to the branch 10, a pipe 11 is connected, made with a narrowing at its end, which is connected to the direct input of the second tee 12, an upwardly directed pipe 13 for air intake is connected to the perpendicular outlet (branch) of the second tee 12, and through the second direct outlet 14 of the second tee 12 the supply water-air mixture into the chamber of a biological wastewater treatment plant.

In a particular case of implementation, the recirculation unit contains the main line - the first vertical pipe 1 with a diameter of 40 mm and a length of 1000 to 2200 mm, depending on the size and productivity of the biological wastewater treatment plant, on one side connected to a pump 2 installed at the bottom of the treatment station chamber , and on the other with the first tee 3 40×25×40 mm. The top of the first tee 3 is connected by a second vertical pipe 4 with a diameter of 40 mm with a sprinkler 5 of purified water above a biofilter 6. At an angle of 90 degrees, a branch comes out of the first tee 3 - a horizontal pipe 7 with a diameter of 25 mm, the free end connected to outlet 8 for a rotation of 90 degrees down, a third vertical pipe 9 with a length of 300-380 mm is connected to outlet 8, depending on the size and productivity of the biological wastewater treatment plant. At the free end of the third vertical pipe 9 there is a bend 10 for rotation, a pipe 11 with a diameter of 25 mm, made with an internal narrowing of up to 20 mm, is connected to the bend 10, the free end of which is connected to the direct entrance of the second tee 12 25x25x25 mm, to the perpendicular outlet (branch) The second tee 12 is connected to an upwardly directed pipe 13 with a diameter of 25 mm for air intake, and through the second direct outlet 14 of the second tee 12, a water-air mixture is supplied to the chamber of the biological wastewater treatment plant. The narrowing in pipe 11 is made by soldering a piece of pipe with a diameter of 20 mm into it at the junction with the second tee 12.

The device works as follows.

In a particular implementation case, the recirculation unit can be used in a three-chamber septic tank having a cylindrical body with periodic recirculation of clarified wastewater from the post-treatment chamber to the receiving chamber through a biofilter 6 located in the neck of the station. Pump 2 sucks water from the post-treatment chamber of the biological wastewater treatment plant and supplies it through the main line - the first vertical pipe 1 to the top, in the tee 3 the flow is divided, the main flow is directed to the sprinkler 5, and part through a pipe system to the ejector.

The sprinkler 5 sprays water onto the loading material - the biofilter 6; passing through the biofilter 6, the wastewater interacts with the microorganisms located on it, resulting in the removal of pollutants. At the same time, the recirculating water is saturated with air oxygen due to mechanical aeration, which occurs when water is poured onto the loading material and falls back into the first chamber. The main line - the first vertical pipe 1 - has a branch, which, through the presented pipe system (in the shape of a step), ensures the supply of a water-air mixture to the station chamber. In the middle part of the ejector there is a narrowing on pipe 11, which also makes it possible to increase the air capacity to 40 liters per minute. Through the vertical pipe 13 of the ejector, air is taken in and the purified water is saturated with oxygen. The principle of operation of the ejector is to use the flow of liquid pumped by pump 2 to create a vacuum inside a specially shaped piping system, due to which air is drawn into the ejector through the inlet and mixed with the pumped liquid.

Thanks to the division of the water flow pumped by one pump 2, using a recirculation unit of the proposed design, an increase in the efficiency of the pump and its performance is ensured, since it does not operate under strong resistance, but ensures the operation of not only the sprinkler, but also supplies the water-air mixture into the station chamber , reducing the load on the biofilter and increasing the efficiency of saturating the purified water with oxygen.

The proposed solution allows the recirculating flow to be divided in such a way that the pump acts as a new source of air supply with characteristics equivalent to the use of a membrane compressor and a fine bubble aerator, with an air capacity of up to 40 liters per minute. At the same time, the hydraulic load on the biofilter is reduced as much as possible, which has a positive effect on its operation and allows us to consider this unit a biofilter with additional aeration of the recirculating flow, and not a mechanical aerator. At the same time, the amount of oxygen entering the treated water increases, which increases the efficiency of aeration. In addition, the proposed solution makes it possible to increase the stability and reliability of the station as a whole, as well as to increase the degree of treatment of domestic wastewater.

Claims (2)

1. A recirculation unit for a biological treatment plant for domestic wastewater, containing a pump connected to a sprinkler, a biofilter and an aeration device, characterized in that the aeration device is made in the form of an ejector, which contains a first vertical pipe, one end of which is connected to the pump , and the other end is connected to a tee, the straight outlet from the tee is connected by a second vertical pipe with a sprinkler, the perpendicular outlet from the tee is connected to a horizontal pipe, the free end is connected to the outlet for turning down, a third vertical pipe is connected to the outlet, at the free end of which a outlet is installed for turning, a pipe with a narrowing made in the form of a piece of pipe of a smaller diameter at the junction with the direct inlet of the second tee is attached to the outlet, the perpendicular outlet of the second tee is connected to the air intake pipe, and the direct outlet of the second tee is intended for the outlet of the water-air mixture. 2. Recirculation unit according to claim 1, characterized in that the first vertical pipe, connected at one end to the pump, has a diameter of 40 mm and a length of 1000 to 2200 mm, the second vertical pipe connecting the first tee to the sprinkler has a diameter of 40 mm, the horizontal pipe connected to the perpendicular outlet of the first tee is made with a diameter of 25 mm, the third vertical pipe is made with a length of 300-380 mm, the pipe connected to the direct entrance of the second tee is made with a diameter of 25 mm and with a narrower diameter of 20 mm, the air intake pipe is made with a diameter of 25 mm.