RU97362U1 - WATER TREATMENT PLANT - Google Patents

Abstract

 1. Installation for water purification, comprising a housing (38), in which there are receiving chambers (1) separated by partitions, an aeration tank (2), a secondary sump (3) and a sludge stabilizer (4), as well as connected to a control unit (37) and connected to at least one compressor (22) through an electromagnetic valve (23), an aeration system consisting of a turbo mode subsystem, a direct cleaning phase subsystem and a reverse cleaning phase subsystem, the turbo mode subsystem including an air turbo distributor (24), a main pump (11) with filter (8) large fractions air duct (27) of the main pump, air duct (28) for purging the main pump in the receiving chamber, and also a circulator pump (12) of the aeration tank with air duct (29) of the circulating pump; the subsystem of the direct phase of cleaning includes an air distributor (25), an air duct (33) of an external aeration filter (8) of large fractions, and an aerator (16) of an aeration tank with an air duct (30); and the subsystem of the reverse phase of cleaning includes an air distributor (26), an aerator (15) of the receiving chamber with an air duct (32), a recirculation pump (13) of an aeration tank with an air duct (34), a stabilizer pump (14) of a sludge with an air duct (31) ), a pump (17) for the secondary sump (3) with an air duct (35), as well as an air duct (36) for blowing the secondary sump; at the same time, a flow damper (7) and a purge nozzle (18) are placed in the secondary settler. ! 2. Installation according to claim 1, characterized in that in front of the receiving chamber there is a primary compartment (5) with a submersible pump (9) for pumping untreated water into the receiving chamber. ! 3. Installation according to claim 1, characterized in that next to the upper part of the secondary sump is a container (6) of purified water with a pump (10) open

Description

The utility model relates to the field of biological treatment of domestic and, in part, industrial wastewater using activated sludge.

A known installation for water treatment, comprising a housing with equalization and activation chambers, a settling chamber, an aeration system with five compressors, pumps and aerators, connected to the control unit, with the ability to control direct and reverse wastewater treatment cycles. The control unit provides automatic control of the operating modes of the installation according to a given program with the possibility of correcting the operating mode (with fluctuations in the flow of wastewater) according to the signals of the level sensors (patent RU 2162062, 2001). The disadvantage of the installation is the design complexity with a large number of compressors and connecting pipelines, which complicates operation and reduces the reliability of the installation.

A water treatment plant is also known, comprising a housing with equalization and activation chambers with level sensors, a settling chamber, an activated sludge stabilization chamber, an aeration system with compressors, pumps and aerators connected to the control unit (utility model patent RU 64024, 2007 .). As in the previous case, the installation includes several compressors. In addition, during operation of the installation, periodic removal and cleaning of the filter of coarse impurities is required. Another drawback is the incomplete use of the installation volumes in cases where the inlet pipe of contaminated water is located significantly below the upper edge of the installation housing.

Installation for water purification, according to the proposed utility model, allows to overcome these disadvantages.

The installation comprises a housing divided by partitions into four chambers: a receiving chamber, aeration tank, a secondary sump and a sludge stabilizer. The installation also includes a control unit, a compressor and an aeration system connected to it through an electromagnetic valve. A constructive installation option is possible with two compressors operating simultaneously or alternately.

The aeration system includes three subsystems: a turbo-mode subsystem, a direct cleaning phase subsystem, and a reverse cleaning phase subsystem. The turbo-mode subsystem includes an air turbo distributor, a main pump with a filter of large fractions, an air duct for the main pump, an air duct for purging the main pump in the intake chamber, and an aeration tank circulator pump with an air pump circulator.

The subsystem of the direct cleaning phase includes an air distributor, an air duct for external aeration of the filter of large fractions, and an aeration tank aerator with an air duct. The reverse phase of the cleaning subsystem includes an air distributor, an intake chamber aerator with an air duct, an aeration tank recirculator with an air duct, a sludge stabilizer pump with an air duct, a secondary sump pump with an air duct, and a secondary sump purge air duct. The secondary settler also contains a flow damper and a purge nozzle.

Additionally, in front of the intake chamber, there may be a primary compartment with a submersible pump for pumping untreated water into the intake chamber.

After the secondary sump, usually near its upper part, there may be a tank of purified water with a pump for pumping purified water.

In addition, the installation can be equipped with equipment for filtering and disinfecting water (for example, in the form of a sand filter and a UV disinfection lamp), placed in a separate compartment inside the station building.

The installation device for water treatment is illustrated in the drawing.

The positions in the drawing indicate the following components and installation details:

1 - receiving chamber;

2 - aeration tank;

3 - secondary sump;

4 - sludge stabilizer;

5 - primary compartment;

6 - capacity of purified water;

7 - flow damper;

8 - filter of large fractions;

9 - dirty water pump;

10 - pump purified water;

11 - the main pump;

12 - aeration tank pump - circulator;

13 - aeration tank pump - recirculator;

14 - sludge stabilizer pump;

15 - aerator of the receiving chamber;

16 - aeration tank aerator;

17 - secondary sump pump - grease remover;

18 - nozzle purge secondary sump;

19 - primary compartment level sensor - emergency;

20 - level sensor receiving chamber - working;

21 - level sensor of the receiving chamber - control;

22 - compressor;

23 - the electromagnetic valve;

24 - air distributor - turbophase;

25 - air distributor - direct phase;

26 - air distributor - reverse phase;

27 - air pipe - the main pump;

28 - air duct - purge the main pump;

29 - air pipe - circulator;

30 - air duct - aeration tank aerator;

31 - air pipe - sludge stabilizer pump;

32 - air duct - aerator of the receiving chamber;

33 - air duct - purge filter of large fractions;

34 - air pipe - recirculator;

35 - air duct - grease extractor;

36 - air duct - purge the secondary sump;

37 - control unit;

38 - installation casing.

Installation for water purification works as follows. Wastewater, mainly domestic water, enters the receiving chamber 1, where large fractions of contaminants (garbage) are separated using a filter 8. The receiving chamber 1 will allow to take a salvo discharge of wastewater and average them over the composition, without violating the mode of operation of the remaining chambers of the installation. In the receiving chamber 1, the biological treatment of wastewater begins using activated sludge coming in from the sludge stabilizer 4 during the reverse phase and air coming in through the aerator of the receiving chamber 15 and duct 32. The level of wastewater in the receiving chamber 1 is monitored using a working sensor 20 and the control sensor 21. Periodically, to clean from contaminants clogging the main pump 11 and the filter 8, purge through the air ducts 27 and 33, respectively. Air is supplied to all installation chambers from compressor 22.

From the receiving chamber 1, the wastewater via the main pump 11 enters the aeration tank 2, in which intensive biological treatment occurs using activated sludge. Aerotank 2 operates in two modes, which are set by the control unit 37 by switching the electromagnetic valve 23. In the first mode, the wastewater is intensively mixed and saturated with oxygen by air duct 30 and aerator 16. At the same time, the air distributor 25 works. In the second mode, the air supply and mixing are stopped and the settled sludge is pumped out to the sludge stabilizer 4 using the aeration tank pump 13 and the air duct 34 thereto.

From the aeration tank 2, the mixture of purified water and activated sludge is pumped through the flow damper 7 through a flow damper 7 to a secondary sump 3, where water is clarified and activated sludge is deposited. The grease film floating on the surface in the secondary sump 3 is removed by the pump 17 during the reverse phase by supplying air to it through the air duct 35. The cleaned and clarified secondary sump is removed by gravity outside the unit or into the tank 6, from which the purified water is further pumped out 10.

Excess activated sludge from aeration tank 2 is pumped out by pump 13 into sludge stabilizer 4. Air is supplied to pump 13 through air duct 34.

During operation of the reverse phase, air is supplied through the air duct 36 to the blower nozzle of the secondary sump 18, which ensures the direction of fluid flow towards the grease trap 17. Also, in the reverse phase, air is supplied through the air duct 31 to the sludge stabilizer pump 14 (a variant with an aerator instead of a pump is possible).

The turbofase air distributor 24 operates independently of the activation of the magnetic valve 23. It is designed to distribute air to the aeration tank pump 12 and the air duct 29 thereto, the main pump 11 and the air duct 27 thereto, as well as a purge 28 of the main pump.

If sewage does not enter the unit, it operates autonomously with constant recirculation of water. When the main pump 11 pumps water from the intake chamber 1 to the minimum permissible level, the control unit 37 switches the electromagnetic valve 23 to the reverse phase of cleaning, and the air distributor 26 enters into operation.

In cases where the wastewater is supplied to the installation below the mid-height of the installation, in front of the receiving chamber there may be a primary compartment 5 with a submersible pump 9 for pumping untreated water into the receiving chamber. The level of effluents in the primary compartment 5 is controlled by a sensor 19.

Claims (4)

1. Installation for water purification, comprising a housing (38), in which there are receiving chambers (1) separated by partitions, an aeration tank (2), a secondary sump (3) and a sludge stabilizer (4), as well as connected to a control unit (37) and connected to at least one compressor (22) through an electromagnetic valve (23), an aeration system consisting of a turbo mode subsystem, a direct cleaning phase subsystem and a reverse cleaning phase subsystem, the turbo mode subsystem including an air turbo distributor (24), a main pump (11) with filter (8) large fractions air duct (27) of the main pump, air duct (28) for purging the main pump in the receiving chamber, and also a circulator pump (12) of the aeration tank with air duct (29) of the circulating pump; the subsystem of the direct phase of cleaning includes an air distributor (25), an air duct (33) of an external aeration filter (8) of large fractions, and an aerator (16) of an aeration tank with an air duct (30); and the subsystem of the reverse phase of cleaning includes an air distributor (26), an aerator (15) of the receiving chamber with an air duct (32), a recirculation pump (13) of an aeration tank with an air duct (34), a stabilizer pump (14) of a sludge with an air duct (31) ), a pump (17) for the secondary sump (3) with an air duct (35), as well as an air duct (36) for blowing the secondary sump; at the same time, a flow damper (7) and a purge nozzle (18) are placed in the secondary settler. 2. Installation according to claim 1, characterized in that in front of the receiving chamber there is a primary compartment (5) with a submersible pump (9) for pumping untreated water into the receiving chamber. 3. Installation according to claim 1, characterized in that next to the upper part of the secondary sump is a container (6) of purified water with a pump (10) for pumping purified water. 4. Installation according to claim 1, characterized in that it is additionally equipped with equipment for filtering and disinfecting water, located in a separate compartment inside the station building.