SU997727A1 - Settler - Google Patents

Description

(54) DRAWER

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BACKGROUND OF THE INVENTION The invention relates to a device for clarifying a liquid by sedimentation and. can be used for mechanical treatment of wastewater of various industries.

A settling tank is known, containing a cylindrical body with a conical bottom, a thin-layer module, a feed and distribution unit for the original pulp, a brighter water collector and a sludge discharge unit 1.

Its disadvantage is that a sufficient uniformity of the velocities of the liquid being cleaned in a thin-layer module is not achieved, since the diverting visor directs the main flow to the central part of the thin-layer module, while its peripheral part is less loaded, besides, it has a large entrance area, as it is located further from the center of the cylinder.

The closest in technical essence and the achieved result to the invention is a sump containing a cylindrical body with a conical bottom, a slatted diaphragm, a collector for supplying a cleaned fluid with tangential nozzles, a nozzle for withdrawal of sediment, a drain

Tray and nozzle for drainage of purified liquid 2.

The disadvantage of such a settling tank is that the working stream of the liquid being cleaned is not separated from the sediment and carries with it some of the small particles, and this leads to the fact that the process of self-removal of the sediment is disturbed, the efficiency of the cleaning of the liquid decreases.

The aim of the invention is to increase the efficiency and productivity of wastewater treatment.

The goal is achieved by the fact that in a settling tank containing a cylindrical body with a conical bottom, a lattice diaphragm, a collector 15 supplying the cleaned fluid with tangential nozzles, a sediment outlet nozzle, a drain tray and a nozzle for clearing the purified liquid, the body is equipped with vertical edges and transverse partitions installed between the rib 20 frame with a slope to the wall of the case, an annular box for collecting the purified liquid, connected to the drain pan and larger with an outer diameter, and the inner one with a smaller diameter Dr. body, the upper edge of the casing is placed inside the box.

FIG. 1 shows a sump, vertical section; in fig. 2 shows section A-A in FIG. one.

The sump consists of a cylindrical body 1 with a conical bottom 2, vertical ribs 3 installed along the inside of the cylindrical body 1 and forming vertical pockets. The ribs 3 are provided with transverse partitions 4 installed between the ribs inclined to the wall of the housing 1. In the upper part of the housing 1 there is an annular duct 5 for collecting the purified liquid, the outer diameter of which is larger and the inner diameter smaller than the diameter of the housing. The upper edge of the housing 1 is placed inside the box, the height of the edge is less than the height of the ring box 5 and forms a drain pan 6 communicating with the nozzle 7 for discharging the purified liquid. The settling tank is equipped with a grill diaphragm 8 separating the housing 1 and the bottom 2: above which the annular collector 9 for supplying the cleaned fluid with tangential nozzles 10 is installed. Liquid to the collector 9 is fed through pipe 11. In the bottom 2 of the settling basin there is a nozzle 12 for sediment removal.

The sump works as follows.

The contaminated fluid through pipe 11 is fed into the annular manifold 9, from which it is fed through the tangential nozzles 10 into the lower part of the cylindrical body I along its peripheral part. The entire volume of fluid is in rotational motion. In addition to the legal upward movement, the fluid acquires a circular motion, and the flow path with suspended particles inside the settler takes the form of a spiral line. A centrifugal field is created and centrifugal force begins to act on suspended particles in addition to the force of gravity, which deflects their horizontal movement path to the inner surface of the cylinder. Under the influence of gravity, suspended particles move downward relative to the fluid flow (they settle), as a result, their path (along the spiral line) increases compared to the path of the fluid particles and they stay in the centrifugal field for a longer time. Since the particles in their circular motion are also deflected to the inner surface of the cylindrical body 1, during the time they are even in a weak centrifugal field they have time to come in contact with the vertical ribs 3. This also contributes to the small path of deflection of the particles horizontally, since the original contaminated fluid is supplied next to

ribs 3 and, as a result, the path of deflection of particles is the smallest. The flow of fluid moving across the ribs 3, at their boundary, swirls. Local swirls between the ribs 3 Not beyond their prehela, therefore

particles that fall into the pocket between the fins 3 remain there, gradually settle and fall into the conical part 2 of the settling tank. In order to prevent the fluid from flowing upward in the intercostal spaces, there are transverse partitions 4 with a downward slope along which the precipitating particles slide downwards. A bristle diaphragm prevents the volume of fluid from swirling in the conical bottom 2 of the sump, destroying the connection between the layers of fluid above and below it.

The settling particles accumulate in the conical bottom 2 and are periodically removed through the nozzle 12.

The liquid, freed from the particles, rises into the annular duct 5 and flows by gravity through the wall of the housing in the duct 5 into the drainage tray 6, from which it is discharged through the outlet 7 of the purified liquid.

The application of the proposed device will increase the efficiency of the round sump

due to the fact that the velocity of the fluid moving upward inside the sump is increased and the value of the hydraulic particle size of suspended particles is increased. The performance of such a sump above the known B 1.5-2 times and its value depends

on the size of the fractions.

Claims (2)

1. USSR author's certificate number 765213, cl. C 02 C 1/26, 1980. 2. USSR author's certificate jNb 703506, cl. C 02 C 1/26, 1976.