SU705780A1 - Automatic station for biological purification of waste water - Google Patents

Description

Chlorinator control panel, etc.) are located in a separate stand-through projvodnnn-auxiliary unit connected by pipelines and air to aeration tanks and a recessed special pumping station, the depth of which is determined by the condition of centrifugal pumps inlet, which is necessary for starting the station. Such a scheme leads to a large extent of external communications, and requires the installation of submerged pumping stations. The purpose of the invention is the reduction of external communications and the metal compartment. Dp of this station additionally contains an automatic filling unit connected by pipelines equipped with valves and fittings to a receiving and regulating tank having sensors of the upper and lower levels and the suction side of the pumps, a buffer tank connected to the discharge side of the pumps and connected to the aerotank clarifiers, while the automatic filling unit, the pumps and the air duvka are placed between the nitrogen tanks. brightener gw on a common base plate with the latter. In addition, the blowers are connected to the pipeline connecting the receiving-regulating tank with the automatic filling unit. Placing all technological power and switching equipment on a common base plate drastically reduces external switching, and the automatic filling unit in combination with the buffer tank allows refusing pumped pump stations and provides automatic operation of the station without switching the pumps. multifunctional use of pumps. FIG. 1 shows an automatic cleaning station, a plan; in fig. 2 is the same, section A-A in FIG. 1 in FIG. 3 - the same, section BB in FIG. 2; in fig. 4 is the same, the Va section of FIG. H; in fig. 5 - the same, section G-D in FIG. 3J in FIG. 6 is the same section DD in FIG. 3. On the common base plate 1 there are aerotanks-clarifying 2 between which, on the same plate, is placed an automatic filling unit 3 with a buffer capacity 4, pumps 5 and b, blower 7, as well as chlorate 8 and sterilizer tank 9. The automatic station works as follows in a way. The original waste liquid through the pipeline 10 enters the regulating reservoir 11 and fills it to the maximum level. For the initial start-up of the automatic filling unit 3, the liquid is supplied through the suction pipe .12 using a lift nozzle 13, which enters the air from blowers 7 through the pipeline 14. Through the valve 15, which informs the automatic filling unit with a SatMotor, from the water-to-air emulsion supplied the air-lift nozzle 13 removes the air and the liquid remains, in the automatic filling unit and locking 1 the pump casing with the valves 16 and 17 open. After filling the automatic filling unit 3, stop by Achu air nozzle 13 into airlift closing valve 18 on the air manifold 14. Then puskaets pump 6 and at open valves 16, 17, 19 (FIG. 2). 20, 21, the liquid from the automatic filling unit 3 is pumped out, as a result of which vacuum is created in the suction pipe 12, due to which the liquid from the receiving-regulating tank 11 enters the automatic filling unit 3. Through the buffer tank 4 through the pressure pipelines 22, 23, liquid is supplied to the distribution trays 24 of the aero-clarifiers 2 aeration tanks, from where it is poured into the aeration zones 25 of the aero-clarifiers aeration tanks, where it is aerated by air mixed with active sludge, for example through holey tubes 26, with blowers. Valves 27 and 28 are installed on pressure air ducts (Fig. 2). From the aeration zone 26, the EULZ mix enters through the longitudinal slit formed by the inclined ne, partition 29 and the bottom of the aerotank brightener, into the zone of clarification 30, where it is clarified by filtration through a suspended layer of activated sludge and settling. The clarified liquid enters the collection tray 31 located in the clarification zone. Circulating active sludge in the zone of clarification 30 is deposited in the bunkers 32 and flows through the sludge pipes 33 to the sludge tray 34, where from airlift 35 it is fed to the distribution tray .24 of the aeration zone -25, where it mixes with the original waste liquid. The biologically purified liquid from tray 31 is passed through conduit 36 to sterilizer tank 9, where it is mixed with air, hoc-. blunt through the perforated tube 37 with chlorine water supplied from the chlorinator 8. When the pump 6 is operating, the level in the receiving-regulating tank 11 is lowered to the minimum level determined by the position of the sensor 38 of the lower level at which the pump 6 stops. At the moment of stopping the pump, a part of the automatic filling unit is filled with air whose pressure is below atmospheric by a water column equal to the height H, representing the difference in height between the minimum liquid level in the receiving and regulating tank 11 and the upper end surface of the automatic filling unit. Under the action of discharge in the automatic filling unit and hydrostatic pressure. From the pressure side of the pumps, the liquid from the buffer tank 4 and the pressure pipelines 22, 23 refills the automatic filling unit, the excess liquid through the suction pipe 12 is discharged into the receiving-regulating tank 11, which ensures readiness on the next start-up of the pump when the maximum level of the fluid in the receiving and regulating reservoir detected by the sensor 39 of the upper level is reached.

Thus, the automatic filling unit allows positioning. Centrifugal pumps are higher than the level of the pumped liquid on a common base plate with aeration clarifiers with a H value not exceeding almost 8 m, depending on the nominal vacuum metric suction height of the pumps, which makes it possible to refuse the device of an autonomous recessed pump station.

In addition to supplying the original waste liquid to the aero-clarifiers, the pumps perform the following functions: Emptying the tank One of the aerotank-clarifiers to the other; Udzhsheniya excess active. Aerotank brighteners outside the station, for example on the sludge beds.

To empty one of the aero-clarifiers, for example the left, as shown in fig. 1. The pumps are started up with the valves open.x 17, 19, 21, 40 and the closed valves 16, 20, 41. At the same time, the pump 6 takes the liquid from the left clarifier aerotank with pipeline 42 and delivers it to the right aerotank clarifier 23. Removal excess activated sludge from the aeration zone, for example, a left clarifier aerotank, is carried out by a pump through conduit 43 with valves 17, 19, 40 and 44 open and valves 16, 20 and 41 closed. If necessary, pumps 5, b can pump the drainage water or areas in the aeration tank.

The purified and sterilized water is directed from the sterilizer tank 9 through a conduit 45 for collection into a reservoir. This completes the cleaning cycle.

Aerotalk-clarifiers are made by typesetting from separate volumetric

elements with a capacity of 25 or 50 m / day, which allows varying the performance of stations in the range from 50 to 1000 m-wastewater per day, or to provide wastewater treatment from settlements with a population of 250 to 5000. The invention will allow times to reduce the required building area by installing all the equipment on a single base plate, which was made possible by the use of an automatic bay unit, which allowed us to refuse the burial required for the bay of centrifugal pumps. Such a scheme by 30%

5 will reduce the metal intensity of the station, since arrange external communications and underground pumping stations, will allow the construction and installation of industrial methods from

0 ready volume elements, as well as automate the launch and operation of the station, simplifying and cheapening its operation.

five

Claims (2)

1.Automatic station for biological sewage treatment, having aero-brighteners, receiving-regulating tank, connected 0 pipelines with aerotank clarifiers, pumps connected to aerotank clarifiers, and blowers for supplying air to the aeration zone of aerotanks of clarifiers, in order to reduce external communications and metaplastic receptacles by eliminating the burial required for filling the pumps, it additionally contains an automatic filling unit connected by pipelines fitted with valves and fittings to a receiving-regulating tank with upper and lower level sensors and a suction side for 5 pumps, a buffer tank connected to the discharge side of the pumps and connected to the clarifier aerotanks, while the automatic filling unit, pumps and blowers are placed between the clarification aerotanks E on a common base plate with the latter. 2. Automatic station according to claim 1, characterized in that 5 blowers are connected by a pipeline with a receiving-regulating tank and an automatic bay unit. Sources of information taken into account in the examination ABOUT 1. Patent OilA 3859215, cl. 210-195, publ. 1976. 2. Razumovsky ES and others. Cleaning and disinfection of wastewater of small settlements. M., 1978 with. 50 - 62. five eci I "a