RU120095U1 - DEVICE FOR BIOLOGICAL SEWAGE TREATMENT - Google Patents

Abstract

1. A device for biological wastewater treatment, containing an aeration tank body, a purified water supply and purified water outlet, an aeration system connected to a compressed air source, for example, a compressor, a sump and airlifts that pump the sludge mixture into the initial section of the aeration tank, which is different the fact that the aeration system is a collector pipe laid along the longitudinal wall of the body at a certain distance from the bottom, to which, for example, by welding, perforated tubes are connected, parallel to each other and relative to the transverse wall of the body, and the sump is made in the form of a rectangular box with a conical a pit and is equipped with a pneumatic agitator, consisting of closed perforated pipes connected to a source of compressed air, and a vertical airlift pipe with a gas-liquid ejector is installed in the sump sump, the working nozzle of which is connected to a source of compressed air, while the other end of this pipe is connected to the initial section Aeration tank astcom. ! 2. The device according to claim 1, characterized in that the perforated tubes of the aeration system have two rows of holes, and the holes of one row are placed relative to the holes of the other row in a staggered manner, and fittings are inserted into these holes, inclined at an angle of not more than 45 ° to the bottom aerotank and deflected in different directions. ! 3. The device according to claim 1, characterized in that the device is equipped with a second aeration tank, which is connected in series with the first one through the sump tray, and their designs are similar. ! 4. The device according to claim 1, characterized in that if one aeration tank is used in the device, its

Description

This utility model relates to the biological treatment of municipal and industrial wastewater with activated sludge during intensive aeration with compressed air.

Widely known devices for biological wastewater treatment, which use aeration tanks with an inlet of wastewater and activated sludge, as well as means for circulating the sludge mixture in the aeration tank and aerators for saturating the sludge mixture with atmospheric oxygen.

A device for biological wastewater treatment, including a corridor aeration tank with a concentrated inlet of wastewater and return activated sludge, with a pneumatic aeration system for wastewater, pumps with electric motors for recirculation of the sludge mixture (see US patent No. 2465658, NKI 210-5.1949 g .).

In this device, several pumps with engines located along the length of the aeration tank pump the sludge mixture from places located downstream of the liquid stream to places located upstream of the liquid stream, as a result of which several wastewater treatment zones are formed along the length of the aeration tank.

However, with this device, pump operation requires significant additional energy to control the wastewater treatment process. A large length of the aeration tank is needed to mix the sludge mixture. In addition, pumping the sludge mixture at the beginning of the stream (where the contaminants have already been sorbed on flakes of activated sludge, and the process of oxidation of these contaminants is just beginning) to more polluted areas located upstream, creates unfavorable conditions for the activity of microorganisms of activated sludge.

It is also known that to separate activated sludge from wastewater being cleaned in the aeration tank, the latter is sent to secondary settling tanks located separately from or blocked from aeration tanks. However, secondary sedimentation tanks can effectively separate sludge at concentrations in the sludge mixture of activated sludge equal to about 2-3 g / l.

Currently, for a more efficient biological treatment process, the concentration of sludge mixture is increased to 6-8 g / l.

In the device by ed. testimonial. USSR No. 170418, MKI C02L 1/02, 1960 wastewater after the primary settling tanks, where they are partially released from suspended solids, enter the aeration tank, where they are aerated for some time in a mixture with activated sludge. Having passed the aeration tank, the treated wastewater enters the secondary settling tanks, where activated sludge is separated from them by settling. Next, activated sludge is centrifuged and the centrate containing activated sludge is returned for reuse in the process.

The disadvantage of this device is the low degree of purification, the duration of the process, which increases the capital costs for the construction of treatment facilities, and the return of activated sludge complicates the process flow chart and creates adverse conditions for the activity of microorganisms of activated sludge.

A device for biological wastewater treatment, which is an aeration tank with surface aerators and built-in flotators. In these devices, due to flotation, activated sludge rises to the surface of the water in the aeration tank, from where it is removed and partially recirculated by surface aerators. In this invention, scrapers are used to remove activated sludge from the surface of the water or it is gravity drained through collection trays (ed. Certificate of the USSR No. 5448574, MKI C02C 1/02, 77 g).

This device creates unfavorable conditions for the activity of microorganisms of activated sludge due to perturbation of the free surface of the liquid in the aeration tank during the removal of activated sludge.

Removing activated sludge from the sludge mixture circulation system in the aeration tank reduces the effectiveness of this device.

In the invention according to the USSR AS No. 1361115, IPC C02F 3/12, 87, a device for wastewater treatment is proposed in which the efficiency of the cleaning process is achieved by maintaining the mass of activated sludge recycled in the aeration tank.

The device comprises an aeration tank with wastewater inlet and outlet, a sump located at the end of the aeration tank and separated from the latter, and a secondary sump, the first sump equipped with airlifts and a tray for pumping activated sludge to the head of the aeration tank, and a tilted overflow pipe communicating with the aeration tank with primary sump.

In this device, wastewater enters the head of the aeration tank, where it is mixed with return sludge pumped by airlifts along the tray from the sump. The sludge mixture passes the aeration tank and enters through this inclined pipe into this sump. Purified water from this sump enters the secondary sump, and activated sludge is pumped into the aeration tank by airlifts

In this device, all the necessary conditions for the life of microorganisms are met. However, this device has low productivity (low efficiency) and imperfect forms of aerators and a sump of the sump, which can lead to sticking of activated sludge to the bottom of the aeration tank and to the surfaces of the sump and, accordingly, to a decrease in the mass of activated sludge in the recirculation system.

This technical decision is taken as a prototype of a utility model.

The objective of the utility model is to create a device for wastewater treatment, which can significantly intensify this process, increase the efficiency of the installation, reduce capital and operating costs, and eliminate losses of activated sludge in the recirculation system.

This problem is solved due to the fact that in the device for biological wastewater treatment, containing an aerotank body, a pipe for supplying purified water and a pipe for removing purified water, an aeration system that is connected to a source of compressed air, for example, a compressor, a sump and airlifts that pump sludge the mixture into the initial section of the aeration tank, while the aeration system is a collector pipe laid along the longitudinal wall of the housing at a certain distance from the bottom, to which are attached, for example, by perforating welding pipes, parallel to each other and relative to the transverse wall of the casing, and the sump is made in the form of a rectangular box with a conical pit and is equipped with a pneumatic sprinkler consisting of closed perforated pipes connected to a source of compressed air, and a vertical airlift pipe with a gas-liquid ejector is installed in the pit sump the working nozzle of which is connected to a source of compressed air, while the other end of this pipe is connected to the initial section of the aeration tank.

Other differences of the proposed device are:

- the perforated tubes of the aeration system have two rows of holes, the holes of one row are placed relative to the holes of the other row in a checkerboard pattern, and fittings are inserted into these holes, inclined at an angle of not more than 45 ° to the bottom of the aeration tank and rejected in different directions;

- the device is equipped with a second aeration tank, which is connected in series with the first, and their designs are similar;

- if one aeration tank is used in the device, its sump is connected to the disinfection unit of purified water;

when using two aeration tanks in series in the device, the sump of the second aeration tank is connected to the disinfection unit of purified water.

The technical result is an increase in the degree of wastewater treatment, reducing the cost of the process.

Figure 1 shows a device for biological wastewater treatment (top view); figure 2 is a section aa in figure 1.

The device (Fig. 1) comprises an aeration tank body 1, a purified water supply pipe 2 and purified water removal pipe 3, an aeration system 4, which is connected to a compressed air source 5, for example, by a compressor, a settling tank 6 and airlifts 7, which transfer the sludge mixture to the initial section of the aeration tank. The aeration system 4 is a pipe-collector 8, laid along the longitudinal wall of the housing 1 at a distance from the bottom 9, to which are attached, for example, by welding perforated tubes 10 parallel to each other and relative to the transverse wall of the housing. The sump 6 is made in the form of a rectangular box 11 with a conical pit 12. A puffer 13 is installed in the sump box, consisting of closed perforated pipes 14 connected to a source of compressed air 5. A vertical airlift pipe 15 with a gas-liquid ejector 16 is installed in the sump 12 of the sump 6, working whose nozzle is connected to a source of compressed air 5. The other end of this pipe is connected to the initial section of the aeration tank. The perforated tubes 10 (FIG. 2) of the aeration system 4 have two rows of holes 17 and 18, the holes of one row being staggered relative to the holes of the other row. Nipples 19 are inserted into these holes, inclined at an angle of no more than 45 ° to the bottom of the aeration tank and deflected in different directions.

The device is equipped with a second aeration tank 20, which is connected in series with the first through the sump tray, and their designs are similar. In addition, the sump of the second aeration tank is connected to the disinfection unit 21 of purified water.

At the entrance to the aeration tank installed strainer 22 (figure 1).

The device operates as follows.

The initial wastewater to be treated first passes a strainer 22, in which water is freed from large agglomerates, and then continuously flows into the housing of the aeration tank 1, in which it is mixed with activated sludge. At the same time, compressed air from the source 5 is supplied to the aeration system 4 through the collector pipe 8. The air, leaving under pressure, from the openings 17 and 18 of the fittings 19 provides intensive wastewater treatment by mixing it with activated sludge, as a result of the formed sludge mixture, continuously moving in the direction of the sump 6 followed by. continuous flow from the housing 1 to the sump 6. In the sump, the purified water is separated from the activated sludge due to the difference in density between the activated sludge and the purified water. The pumping of activated sludge from the sump 6 to the initial section of the aeration tank is carried out by airlift 15. Passing through the airlift pipe, activated sludge flows from the bottom to the top of the initial section of the aeration tank, together with the flow of wastewater. It mixes with this water to form a silt mixture. Next, the cycle repeats. A similar process takes place in the second aeration tank. In order to prevent sticking of sludge on the walls of the sump of the sumps from the closed pipes 14 of the pneumatic agitator 13, compressed air periodically leaves, which blows the activated sludge from the walls of the box 11 into the conical pit 12.

Efficient 100% transportation of sludge by airlifts from sumps is carried out at a high speed of movement of the sludge-air mixture (1-4 m / s), which is ensured by supplying a large amount of air to the airlifts. This allows you to save the life cycle of microorganisms of sludge due to the sufficient time spent in the recirculation system.

Industrial applicability

The utility model will find application in newly designed wastewater treatment plants, which will have high efficiency and economic benefits.

Claims (4)

1. A device for biological wastewater treatment, comprising an aeration tank housing, a pipe for supplying purified water and a pipe for removing purified water, an aeration system that is connected to a compressed air source, for example, a compressor, a sump and airlifts that pump the sludge mixture to the initial section of the aeration tank, characterized in that the aeration system is a collector pipe laid along the longitudinal wall of the housing at a distance from the bottom, to which perforated tubes are connected, for example, by welding, parallel interconnected with respect to the transverse wall of the casing, and the sump is made in the form of a rectangular box with a conical pit and is equipped with a pneumatic sprinkler consisting of closed perforated pipes connected to a source of compressed air, and a vertical airlift pipe with a gas-liquid ejector is installed in the pit sump, whose working nozzle is connected to a source of compressed air, while the other end of this pipe is connected to the initial section of the aeration tank. 2. The device according to claim 1, characterized in that the perforated tubes of the aeration system have two rows of holes, moreover, the holes of one row are staggered relative to the holes of the other row, and fittings are inserted into these holes, inclined at an angle of not more than 45 ° to the bottom aeration tank and rejected in different directions. 3. The device according to claim 1, characterized in that the device is equipped with a second aeration tank, which is connected in series with the first through the sump tray, and their designs are similar. 4. The device according to claim 1, characterized in that in the case of using one aeration tank in the device, its sump is connected to the purified water disinfection unit, and when two aerial tanks are connected in series to the device, the second aeration tank sump is connected to the purified water disinfection unit.