SU1118391A1 - Suspension clarifier - Google Patents

Abstract

1. LIGHTING SUSPENSION, containing a vertical cylindrical body with a conical bottom, an internal cylindrical-conical tank coaxially installed in the body, a feed pipe with a baffle located along the axis of the body, and fittings for removing sludge and clarified liquid, characterized in that in order to reduce the content of suspensions in the clarified solution due to a more uniform distribution of the flow in the separation zone, it is equipped with a package installed at a distance from one another and placed in the upper part of the apparatus -inflammatory perforated conical grating, the bottom of which is attached by its base to the cylindrical part of the tank, and the cylindrical shell attached to the upper edge of the conical base of the lattice and arranged between the walls of the casing and the tank, wherein the lower edge of the sleeve placed on the cylindrical body portion. 2. Illuminator according to claim 1, about tl, which is due to the fact that the bump stop (A is made of a W-shaped profile. 3.Alignator according to claim 1, about tonnes, and that the holes in the adjacent distribution conic gratings are offset by one relative to the other.

Description

00 00 The invention relates to a device for the purification of suspensions from suspended substances and can be used in the chemical, metallurgical industries, as well as in water treatment. A known apparatus for clarifying wastewater and micrural suspensions includes vertical cylindrical housing with a conical bottom. Coaxially tilted cones installed one above the other in the housing, with branch pipes fixed in their tops, placed along the body axis with an expanded lower part, overflow pocket, conical loops and fittings for the withdrawal of sludge and clarified liquid tl3. A disadvantage of the known apparatus is that the selection of the clarified solution in the lower case occurs through a nozzle (or a nozzle system). This leads to a sharp increase in flow rates in the areas adjacent to the installation site of the nozzles, which causes perturbations of the surface of the suspended layer and Suspension The closest to the invention to the technical essence and the achieved effect is a clarifier of suspensions, containing a vertical cylindrical body with a conical bottom coaxially mounted inside the body a cylindrical-conical tank placed along the axis of the body feed pipe with a baffle and fittings for the removal of sludge and clarified liquid 2. The disadvantage of this apparatus is that, in case of advice, poorly settling suspensions and wastewater, even with the addition of reagents, is not always possible to achieve the required degree of clarification due to the relatively uneven distribution of the clarified liquid in the separation space above the suspended layer, and the inefficient use of protective zone. The clarified liquid, when moving to the collecting collector, has an uneven velocity profile, as a result of which the suspension is carried out at elevated speeds. The purpose of the invention is to reduce the content of suspensions in the clarified solution due to a more uniform distribution of the flow in the separation zone. suspensions, containing a vertical cylindrical body with a conical bottom, coaxially mounted in the body an internal cylindrical-conical tank, located along the axis of the body and the feed pipe with baffle and fittings for discharge of sludge and clarified liquid, is provided with a package installed at a distance from one another and placed in the upper part of the apparatus of distribution perforated conical gratings, the bottom of which is attached with its base to the cylindrical part of the tank, and a cylindrical shell attached to the edge of the base of the upper conic lattice and placed between the walls of the housing and the reservoir, with the lower edge of the shell placed in the cylindrical part of the housing. It is advisable to perform a bump-shaped profile, and the holes in the adjacent distribution conical gratings shift one relative to another. The drawing shows the proposed device, the overall appearance. The device consists of a cylindrical body 1 with a conical bottom 2 and a rim 3, under which the collector 4 is located. The device has a supply pipe 5 with a b .w-shaped baffle and a profile 7 and 8, respectively, for outputting the slurry and the clarified liquid. Inside the housing of the apparatus, in a protective zone, there is a package of distributive perforated conical grids 9, a cylindrical shell 10, is attached to the upper distributing conical grid 9. located between the walls of the housing of the apparatus and the reservoir 11; 12 holes in neighboring distributions-. The body cone grids 9 are displaced relative to each other. The apparatus works as follows. The initial suspension flows together with the reagent through the feed pipe 5 into the inner tank 11 onto the surface of the baffle 6 of the W-shaped profile and is evenly distributed throughout its volume, creating a suspended layer of flocculated sludge. When the suspension moves through a layer of a formed suspended layer, a thin suspension is suspended in the suspended layer, the clarified liquid enters up through the openings of 12 distribution conical gratings 9. A thin suspension is deposited with the clarified liquid onto the outer surfaces of the distribution conical gratings 9 and slides down , in the space enclosed between the cylindrical shell 10 and the outer wall of the tank 11, In the lower part of the tank 11 a sediment falls out and slips into the space between Tenkai deflector 6 and the inner wall of the tank 11 through the opening in the conical bottom portion of the apparatus 2 where it occurs and seal. The space enclosed between the bottoms of the housing 1 of the apparatus and the reservoir 11 is filled with compacted sludge, which enters there through an opening in the bottom of the reservoir 11 and from the outer surfaces of the distribution conical gratings 9. At the conical bottom 2 of the apparatus, the sediment condenses out of the aggregated particles. the liquid phase passes through the layer of precipitated sediment, is clarified and enters the space enclosed between the inner cylindrical wall of the housing 1 of the apparatus and the cylindrical shell 10, and then with the main flow of clarified liquid is directed into a collecting manifold 4 and is withdrawn through nipple 8, Compacted pellet discharged through the nozzle 7, in the space comprised between the apparatus body 1 and the cylindrical shell 10 is formed a layer of sediment, a clear boundary tions Imek

, phase separation. By placing a photocell at the interface, illuminated by a light source, it is possible to regulate the discharge of compacted sludge from the conical part of the bottom 2 of the apparatus.

Installing a package of distributive perforated conical grids in the upper part of the apparatus (in its protective zone) at a distance from each other allows multiple alignment of the velocity profile of the moving up clarified liquid, resulting in reduced removal of suspended matter from the suspended layer. Making the distribution grids in the form of cones allows the suspension to slide down from their inclined surface and out through the grating holes. Timely suspension of the slurry from the gratings can significantly normalize the hydraulic mode and increase the efficiency of clarification.

Fastening the lower distribution grid to the bottom of the tank allows you to create a closed space.

As a result, the entire outgoing fluid flow passes through the apertures of the distribution grids. At the same time, the suspended precipitate on the surface of the grids slides and enters the compaction zone of the sediment.

Supplying the apparatus with a cylindrical shell attached to the edge of the base of the upper conical lattice, and placing it between the cylindrical walls of the housing and the reservoir, allows to create a closure of the accumulated sediment layer that prevents liquid from entering the space between the cylindrical shell and the inner wall of the housing of the apparatus. The creation of such a shutter forces fluid to flow through the openings of the grids.

Making the grids in the form of a package, of which each is made in the form of a cone, allows to obtain a positive effect, achieve a higher degree of clarification and ensure the removal of sediment from the surface of the grids. Making arrays in the form of a stack of cones spaced apart from each other allows, along with a uniform distribution of the flow, to increase the effect of clarification due to settling of the suspended suspensions in a thin layer that is created in the spaces between the surfaces of the cones.

The execution of the wedge baffle allows creating optimal hydrodynamic conditions for the operation of the suspended layer.

Offset holes in adjacent conical distribution grids relative to each other allows to evenly distribute the flow and increase the length of the path of the fluid in the protective zone with the maximum number of turns, due to a sudden change in flow direction there is a loss of suspension, which also leads to increased clarification efficiency.

Suspension

Claims (3)

1. SUSPENSION LIGHTENER, comprising a vertical cylindrical body with a conical bottom, an inner cylinder-conical tank coaxially mounted in the body, a feed pipe with a chipper placed along the body axis and fittings for discharging sludge and clarified liquid, characterized in that, in order to reduce the suspension content in a clarified solution due to a more uniform flow distribution in the separation zone, it is equipped with a pack installed at a distance from one another and placed in the upper part of the distributor apparatus perforated conical lattices, the lower of which is fixed on its base to the cylindrical part of the tank, and a cylindrical shell attached to the edge of the base of the upper conical lattice and placed between the walls of the casing and the tank, the lower edge of the casing being placed on the cylindrical part of the casing. 2. The clarifier according to claim 1, characterized in that the chipper is made of a W-shaped profile. 3. The clarifier according to claim 1, wherein the holes in adjacent conical distribution gratings are offset from one another. 111839