RU65343U1 - INSTALL BIOLOGICAL CLEANING - Google Patents

Abstract

The utility model relates to installations for biological treatment (UBO) of wastewater, specifically to devices for discharging treated effluents. The problem solved by the claimed utility model is to simplify the design, increase reliability during operation, as well as reduce energy consumption during wastewater treatment. The solution of this problem was carried out due to the fact that the biological treatment plant for domestic and industrial wastewater containing a treatment reactor connected to a treated waste chamber equipped with an outlet unit with shut-off valves, according to a utility model, the treatment reactor is connected to the treated wastewater chamber by means of a siphon drain element made in the form of a siphon ∩-shaped curved tube with a bend with inlet and outlet sections unequal in length, with the bend of the tube below the maximum liquid level ores in the treatment reactor, and the inlet section of the bent tube is located in this reactor at a depth of not less than 0.33N, where N is the height of the reactor, while its outlet section is located in the chamber of treated effluents at a depth of not less than 0.2N.

Description

The utility model relates to installations for biological treatment (UBO) of wastewater, specifically to devices for discharging treated effluents.

Known UBO with a reactor equipped with a device for the withdrawal of treated effluents in the form of a pipe with stop valves, see RU No. 12123, M. cl. С02F 1/78, 99 g.

This device is not intended to cut off any contaminants from treated wastewater.

The closest analogue of the claimed utility model is a UBO with a device for outputting treated effluents from a biological treatment reactor, containing a receiving chamber connected to the treatment reactor, equipped with an outlet for treated effluents with shutoff valves and a movable rotary decanter in the form of a L-shaped pipe with a passage channel and a float fence head, see patent RU No. 36937, M. cl. A01K 63/04, 04 g.

However, in such an RCD, the movable rotary decanter is difficult to manufacture and unreliable in operation.

The problem solved by the claimed utility model is to simplify the design, increase reliability during operation, as well as reduce energy consumption during wastewater treatment.

The solution of this problem was carried out due to the fact that the biological treatment plant for domestic and industrial wastewater containing a treatment reactor connected to a treated waste chamber equipped with an outlet unit with shut-off valves, according to a utility model, the treatment reactor is connected to the treated wastewater chamber by means of a siphon drain element made in the form of a siphon ∩-shaped curved tube with a bend with inlet and outlet sections unequal in length, with the bend of the tube below the maximum liquid level ores in the treatment reactor, and the inlet section of the bent tube is located in this reactor at a depth of at least 0.33N, where H is the height of the reactor, while its outlet section is located in the chamber of treated effluents at a depth of at least 0.2N.

The drawing shows a possible design of the proposed device.

The UBO contains a treatment reactor 1, which can be equipped with a secondary sump (not shown conventionally), connected to a treated effluent chamber 2, equipped with an outlet unit in

in the form of a pipe 3 with shut-off valves in the form of an electrovalve 4. The treatment reactor 1 is connected to the chamber of treated effluents 2 by means of a siphon drain element 5 made in the form of a siphon ∩-shaped bent tube with a bend and inlet sections unequal in length, sections A, moreover, the elbow of the tube is located below the maximum liquid level C in the treatment reactor 1, and the inlet section of the bent tube is located in this reactor at a depth of not less than 0.33N, where N is the height of the reactor, while its outlet section is located in the chambers e treated effluents 2 at a depth of not less than 0.2N. This follows from the fact that sedimentation of suspended activated sludge occurs in reactor 1, while the layer of settled water is located from the surface to a depth of up to 0.6N. In this regard, it is advantageous that the input slice is located in this layer. With a smaller depth of the inlet slice, the portions of the drained liquid are reduced, while the frequency of drains increases and the drained liquid may not have time to settle. The same applies to the depth of the output slice. At less than 0.2 N, the depth of the location of this slice, the portions of the drained liquid are reduced and the efficiency of the drain is reduced. The electrovalve 4 is connected to a level 6 sensor, according to the signals of which the valve is turned on / off.

The UBO operation is as follows.

As the reactor 1 is filled, the level of wastewater rises both in it and in the tube 5, and when the level of the knee is reached, the treated wastewater is poured through the tube 3 into the chamber 2. The discharge of liquid into the chamber 2 will continue until the level liquid in the chamber 1 will reach the level of the location of its output slice. Due to the fact that the output section is located above the inlet section (by L), at the moment when the liquid level in the chamber 1 drops to the level of the outlet section location, the equilibrium in the ∩-shaped bent tube 5 is disturbed, while the hydrostatic force developed by the liquid the piston in the outlet section B is not enough for draining and at this moment the draining stops. Thus, automatic drainage of the liquid layer with a height equal to the difference in the level arrangement of the inlet and outlet sections of the tube 5 is ensured, i.e. with a height equal to L, while energy is not expended in draining the liquid. When a predetermined liquid level is reached in chamber 2, a level 6 sensor is triggered, by the signals of which the electrovalve 4 opens or closes. Then, the cycle of filling chamber 2 and releasing purified drains from it is repeated.

Thus, the proposed UBF provides gravity drainage of treated wastewater with the exception of silt suspensions and other contaminants that can prevent siltation of filters (during post-treatment in filters), improve the quality of treated wastewater and reduce energy consumption for treatment.

Claims (1)

A biological treatment plant for domestic and industrial wastewater containing a treatment reactor connected to a treated waste chamber equipped with an outlet unit with shutoff valves, characterized in that the treatment reactor is connected to a treated waste chamber through a siphon drain element made in the form of a siphon ∩-shaped bent tube with a bend with inlet and outlet sections of unequal length, the bend of the tube below the maximum liquid level in the treatment reactor, and the inlet section of the bent tube located in this reactor at a depth of not less than 0.33 N, where N is the height of the reactor, while its output section is located in the chamber of treated effluents at a depth of not less than 0.2 N.