RU8350U1 - RADIAL SILT SEPARATOR - Google Patents

Abstract

1. A radial sump for separating a sludge mixture, comprising a central inlet pipe with a flow distributor, a peripheral drainage channel and a separation wall forming a central sludge and peripheral chambers in the cylindrical tank, piping for removing sludge and a sludge pump, characterized in that it is equipped with an additional conical partition connected with its edges to the side wall and the bottom of the cylindrical tank with bypass windows, forming on the one hand, together with a dividing wall conical with a reverse taper and an entrance window in the upper part, a peripheral chamber for clarification in a suspended sludge layer, in the cavity of which a conical shell with a gap relative to the dividing wall is installed with its upper edge above the drainage channel and forms together with it a bypass channel communicating the upper part of the central sludge chamber with the lower part of the peripheral clarification chamber in the suspended sludge layer, and on the other hand an additional conical partition forms, together with the wall and the bottom of the tank, a container for collecting active compacted sludge in communication with the means for its removal, while the pipeline for removing mineral sludge from the central sludge chamber is made in the form of radial perforated pipes located at the bottom of the tank, united by a central receiving chamber connected with a suction pump, and the flow distributor of the central supply pipe is perforated with holes of different sizes, increasing to the lower

Description

RADIAL SILENT 1K FOR RELEASE SILT MIXTURE

and the proposed useful mod5; It belongs to the purification ObuOi.LL .. of industrial wastewater and can be used at biological wastewater treatment plants as secondary settling tanks with simultaneous clarification.

Known radial sump for separation of the sludge mixture, containing a cylindrical tank with a central inlet pipe and a peripheral drainage tray, a sludge chamber for collecting and discharging sludge communicated with sludge collection tanks with sludge pumps (see Yakovlev S.V. et al. Biological treatment of industrial wastewater vod. M., Stroyizdat, 1935, p. 130).

The disadvantage of the sump is the low efficiency of its use at aeration stations due to the lack of means for dividing sludge into biologically active (young) sludge and mineralized (old sludge.

The closest known technical / 1 solution for the totality of features is a rad1-1 sedimentation tank for separating silt CM-HCI, containing a central supply pipe with a distributor installed in the cavity of the cistern reservoir, a peripheral drainage tray and a separation wall forming a central sludge and peri-peripheral cavity in the cavity of the cylindrical tank chambers, pipelines for removing sludge, as well as sludge collector. USSR) ё 1404465, KL.S02 Р / ЬЕ 1988 prototype ;.

The known device provides separate collection and disposal of biologically active sludge for recycling and sheralized sludge for processing. However, due to the fact that the collection of sludge is carried out with the help of: ;; -: S rotating pipes with a fence, to a large extent, the following is ensured: the reliability of the operation of the sludge due to the presence of t ... ....,, .

M.C. C02 F V52

aggressive conditions. Moreover, as a result of rotation

has i.icCTo re-agitation of sludge that falls into the collecting tray, which does not provide the required quality of clarification.

The execution of the flow distributor in the form of a shell with overflow from above causes the circulation of the flow, which does not create favorable conditions for the deposition of sludge. However, the distributor does not provide flow control.

The proposed utility model solves the problem of improving the quality of lightening and reliability in operation.

To achieve this technical result, in a radial sump for separating a sludge mixture containing a central inlet pipe with a flow distributor, a peripheral drainage tray and a discharge baffle, which forms a central sludge and peripheral chambers in the cylindrical tank, pipelines for removing sludge and The sludge pump is distinguished by the distinguishing features of the above-mentioned known sedimentation tank that it is equipped with connected edges and the bottom of the cylindrical tank with an additional conical baffle with overflow windows, forming, on the one hand, together in the dividing baffle, made conical with inverse taper and the inlet window in the upper part, a peripheral chamber for clarification in the suspended layer of silt, in the cavity of which is set its upper edge above the level of the drainage channel a conical shell with a gap relative to the dividing wall and forming together with it a bypass channel that communicates the upper part of the central sludge chamber with the lower part of the peripheral sludge clarification chamber in the suspended layer of sludge, and on the other hand, an additional conical partition forms, together with the wall and the bottom of the tank, a container for collecting active compacted sludge, connected with its removal means, while the pipeline for removing sludge from the central sludge chamber is made in the form of radial perforated pipes located at the bottom of the tank, united by a central receiving chamber in communication with the suction pump, and the center of the flow distributor Flax feed pipe is formed with a perforated raznovel1Sh: their holes increases towards its lower portion and provided with a conical head connected to the feed pipe. It is advisable that the sump be equipped with conical flange precipitators installed in the inlet window, made in a conical dividing wall below the level of the drainage channel, and the lower row of perforation perforation holes is located directly above the lower edge of the conical bottom, connected with its upper inner edge to the central supply pipe.

Due to the presence of these signs during the operation of the radial sump, the flow of liquid to the sediment calms down with the effective separation of the sludge mixture into the lower layers of the central sludge chamber with favorable conditions for the deposition of mineralized sludge in it and, in the absence of rotating parts, its collection and disposal for processing, and the young biologically active sludge - to produce an effective separation in the peripheral chamber for clarification in the suspended layer of sludge and discharge for recycling into the aeration tank, thereby producing to produce high-quality clarification of water.

The proposed radial sedimentation tank is illustrated by a drawing, in which Fig. 1 shows a diagram of a radial sedimentation tank, a side view, and Fig. 2 is the same top view along I-I and section 2-2.

The radial sump for separating the sludge mixture contains a cylindrical tank with a central supply pipe 2, equipped with a flow distributor in the form of a shell 3, a peripheral drainage tray 4.

The peripheral part of the tank I is equipped with a clarification chamber 5 in a suspended sludge layer formed by an additional cattle partition 6 fixed to the bottom of the tank I and a partition 7 made with the opposite taper. The upper part of the partition 7 is installed above the level of the collecting tray 4.

A conical shell 8 is installed in the chamber 5, forming a bypass channel 9 from the upper part of the central sludge chamber 10

the lower part of the clarification chamber 5 in the suspended sludge layer. An additional horse wall 6 of this chamber forms a wall

tank and tank bottom I e II for collecting activated sealed sludge with a means of its removal in the form of a perforated collector 12 with pipe 13.

An additional conical partition 6 is provided with bypass windows 14 with guide peaks 15. The bypass windows 14 communicate with the clarification chamber 5 in the suspended sludge bed with capacity P to collect the activated compacted sludge.

The means for collecting and discharging more linear sludge from the bottom of the central sludge chamber 10 is made in the form of radial perforated pipes 16 located at the bottom of the tank with a central receiving chamber 17. The chamber 17 is connected via a pipe 18 to the sludge well (not shown in the diagram).

It is advisable that the shell 3 of the flow distributor was made cylindrical and provided with perforation. The holes 19 of the perforation are made of different levels with their increase to the bottom. In the lower part of the shell 3, a conical bottom 20 is mounted, connected with its upper inner edge to the central supply pipe 2. The lower row of holes 19 of the perforation of the shell of the distributor 3 is located directly above the lower edge of the conical bottom 20.

a central sludge chamber 10 with a bypass channel 9, a conical multi-shelf precipitator 21 is installed .:

Radial sump works as follows.

The flow of sludge mixture from the aeration tanks enters through the central supply pipe 2 into the flow distributor in the form of a cylindrical shell 3, where the sludge mixture settles down, passes through the perforation holes 19 and moves in the radial direction. At the same time, part of the heaviest, more mineralized sludge settles on the conical bottom 20, on which it slides down and through the perforation hole 19 located directly at the lower edge of the bottom 20, are discharged together with the sludge mixture into the sludge chamber 10. The bottom 20 prevents the sludge from being stirred up in the central sludge chamber 10.

Since the holes 19 of the perforation of the shell 3 increase from top to bottom, the largest flow of the sludge mixture falls on the lower part of the shell 3 with the distribution of heavy mineralized sludge in the lower layers, and the biologically active sludge, as lighter due to the calming flow, exfoliates and rises, moves to radial direction through the upper perforations and the upper layers of water.

In the central sludge chamber 10, heavier mineralized (old) sludge settles, and biologically active sludge is located in the upper layers of this chamber and, through the bypass channel 9, is lowered into the lower part of the chamber 5 under the suspended sludge layer, then rises, the water is clarified through this suspended layer and merges into tray 4.

The excess of the suspended layer of compacted biologically active sludge through the bypass windows 14 with a visor 15 is directed down to the tank II, from where it is directed through the collector 12 and the pipe 13

for recycling in aeration tank.

The heavier linearized sludge accumulated in the central sludge chamber 10 is sucked off through a pipe 18 to a sludge well (not shown in the diagram), and the younger activated sludge is discharged through a perforated radial pipe 16 and a collection chamber 17 to aeration tank for recycling.

When supplying the input part of the bypass channel 9 with a conical multi-cavity precipitator 21, the latter precipitates part of the mineralized sludge that has fallen up, which then slides into the central sludge chamber 10 and is sent for processing through pipes 16.

The technical and economic efficiency of the proposed device compared to the prototype (a.cB.Je 1404465) is to increase its reliability by eliminating rotating nodes, which is significant: - reduces the labor costs for its operation. In this case, the EZ of 20 - 25% increases the degree of clarification of the sludge mixture by installing the peripheral part of the clarification chamber reservoir using a weighted layer for clarification. The installation of this chamber ensures the collection and compaction of activated sludge, which reduces the amount of sludge and energy consumption when it is supplied for re-perflucation in aeration; nPOPl KTOP in RESEARCH at I.M. Cherkyshoe

Claims (3)

1. A radial sump for separating a sludge mixture, comprising a central inlet pipe with a flow distributor, a peripheral drainage channel and a separation wall forming a central sludge and peripheral chambers in the cylindrical tank, piping for removing sludge and a sludge pump, characterized in that it is equipped with an additional conical partition connected with its edges to the side wall and the bottom of the cylindrical tank with bypass windows, forming on the one hand, together with a dividing wall conical with a reverse taper and an entrance window in the upper part, a peripheral chamber for clarification in a suspended sludge layer, in the cavity of which a conical shell with a gap relative to the dividing wall is installed with its upper edge above the drainage channel and forms together with it a bypass channel communicating the upper part of the central sludge chamber with the lower part of the peripheral clarification chamber in the suspended sludge layer, and on the other hand an additional conical partition forms, together with the wall and the bottom of the tank, a container for collecting active compacted sludge, connected with a means for its removal, while the pipeline for removing mineral sludge from the central sludge chamber is made in the form of radial perforated pipes located at the bottom of the tank, united by a central receiving chamber connected with a suction pump, and the flow distributor of the central supply pipe is perforated with holes of different sizes, increasing to the lower parts and provided with a conical head connected to the feed pipe.  2. The sump according to claim 1, characterized in that it is equipped with conical shelf precipitators installed in the inlet window, made in a conical dividing wall below the level of the drainage channel. 3. The sump according to claim 1, characterized in that the lower row of perforation holes of the distributor is located directly above the lower edge of the conical bottom, connected by its upper inner edge to the Central supply pipe.