SU1688901A1 - Settling tank - Google Patents

Abstract

The invention relates to the field of purification of natural and waste waters from suspended substances by the method of gravitational sedimentation. The purpose of the invention is to more fully utilize the useful volume of the structure and increase the efficiency of settling. The sump includes a rectangular container with packs of rectangular plates installed by the Rus and a flocculation chamber. The sump is also equipped with triangular partitions dividing the interstitial spaces of the plates into the confusion channels. The partitions are made with the ratio of the base and height equal to 1:14. 1 hp f-ly, 3 ill.

Description

The invention relates to the purification of natural and waste waters from suspended substances by the method of gravitational sedimentation.

 The aim of the invention is to more fully utilize the useful volume of the structure and increase the efficiency of the settling.

Fig. T shows a sump, vertical section; figure 2 is the same, the view in the plan; on fig.Z - section aa in figure 1.

The sump consists of a rectangular shaped tank 1 (typical clarifier tank).

The central part of the settling tank is provided with a pipeline 2 for supplying the treated water to the structure. In the middle part of the walls of chamber 3 flocculation, closing windows 4 are provided, lowering the sediment concentration in the suspended layer of chamber 3 flocculation during the flood period. A package 5 of rectangular shape of thin-layer plates 6 is mounted in the container. In the output sections of the package, throttling inserts 7 with openings for water passage are installed in each Rus.

Between the thin-layered plates there are laid the diverting partitions 8 of variable cross-section, having a triangular shape with a ratio of the sides of the triangle 1:14 (base to height). The triangular partitions 8 divide the interstitial spaces of the plates into the confusion channels.

The thin-layer plates 6 in the stack 5 are inclined to the horizon at an angle of 60 ° to allow sediment to deposit on their surface. The inlet section of the package 5 is inclined from the vertical by 20 °, which makes it possible to reduce the ingress of sediment flowing from the upper Rus to the lower. In addition, the inclined position of the bag 5 creates a convenient zone for collecting clarified water and saves the overall construction volume of the structure. A stack of 5 thin-layer plates 6 rests on the truss 9.

A pipeline 10 is located in the upper part of the settler to collect and remove clarified water from the structure.

The bottom part of the side parts of the settling tank is used to collect sediment flowing down from thin-c / ay plates 6

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Pipeline 11 is provided to divert the Accumulated sediment outside the structure.

The device works as follows.

The source water enters the central part of the settler via pipeline 2 and then into the flocculation chamber 3. Having passed it, the water along with the flakes of suspension falls into the side parts of the settling tank, where it is evenly distributed between the thin layer plates 6 of the package 5. The uniform distribution of the flow over the interfacial spaces is provided by throttling inserts 7. Laminariness and stability of the flow are created by the directional wood partitions 8, having a variable cross section.

When water moves in the stack of 5 plates, a flocculent suspension falls out of it, which settles and condenses on the lower shelves of the plates 6, periodically stack into the bottom part of the settling tank, from where it is removed via pipeline 11 from the structure.

The clarified water coming out of the bag 5 is collected by the pipe 10 and is discharged to the filters,

Triangular-shaped jet-baffles in the rectangular thin-layer package exhibit the property of laminating the Reynolds flow, i.e. make it parallel-flow and stabilize it According to Froude, i.e. laminar jets do not oscillate in the longitudinal and transverse plane.

Moreover, due to compression of the flow by triangular-shaped trunks, the laminar regime arises and persists even in those cases when the calculated Reynol-.ftca number for the cross-section of a thin-layer element exceeds its critical value.

The importance of laminarization and flow stability in a thin-layer element is widely known, since this will significantly improve the efficiency of settling.

The ratio of the base of the triangular inserts to the height does not depend on the required degree of clarification, since the degree of illumination is always required the greatest. Not

it also depends significantly on the amount of impurities, since the kinematic viscosity of water varies slightly with an impurity content of from 5 to 5000 mg / l. There is no doubt that there is a dependence on the speed of movement of water in a thin-layer element. And the ratio of the base of the partition to a height of 1:14 was experimentally selected as the best at the applied flow rates in thin-layer elements.

The proposed sump allows you to more fully utilize the useful volume of the sewage treatment plant, to achieve laminariness and flow stability, to increase the efficiency of settling,

Claims (2)

Invention Formula 1, a thin lagoon, including a rectangular tank with packages of rectangular plates installed by rus and a flocculation chamber, characterized in that, in order to more fully utilize the useful volume of the structure and to increase the efficiency of settling, it is equipped with triangular baffles, separating interbranch plate spaces into confused channels. 2. A sump according to claim 1, 1, from 1 and 2 with the fact that the partitions are made with the ratio of the base to the height equal to 1:14. l Yu 1 6 6 8 4 / / UH / U five 2 KZ3 2 Figure 1 L. W Fyu.g J