SU1710517A1 - Thin-layer settling tank - Google Patents

Abstract

The invention relates to the purification of liquids from suspended solids and can be used in water supply - NII. The device contains - a body, nozzles for supplying the liquid being cleaned, • discharging - a clarified liquid and sediment, • inclined! shelf sections. The precipitation shelves are made in the form of dihedral angles composed of vertical and inclined plates with decreasing in the direction of fluid flow the height of vertical plates and the angle of inclination of the inclined plates. This creates favorable hydrodynamic conditions for the deposition on the surface of the shelves of particles suspended in a liquid of various disperses, down to the smallest, and also effectively uses the internal space of the structure, which reduces its dimensions. 1 il.

Description

The invention relates to a device for the continuous separation of a two-phase liquid into phases under the action of gravitational forces and can be applied in drainage, water supply and other parts of the national economy. .

A well-known thin layer settling tank consists of a water distribution and catchment device, a settling tank, a sediment accumulation zone and zone, as well as inclined shelf sections. The disadvantage of this construction is the relatively low cleaning effect, as in the cleaning process of the liquid. in a thin-layer clarifier with a cleaned stream, a part of suspended particles is entrained, the density of which is lower than the density of the liquid being cleaned, and the low coefficient of volumetric use of the structure.

The aim of the invention is to improve the cleaning efficiency of the liquid and the volumetric utilization rate of the structure.

The goal is achieved by the fact that a thin layer settling tank consisting of water distribution and catchment devices, inclined plates, is additionally equipped with vertical plates, which allows splitting the stream into smaller layers earlier and increasing the total length of the shelf sections, therefore, the liquid moves in a shallow layer longer . In this case the laminar regime of fluid movement takes place, i.e. parallel jet motion, as a result of which the speeds and transport capacity of the flow are reduced, the earlier precipitation of particles occurs, and more

fine particles, and in the inclined shelves, even smaller particles are deposited, which slide down along the lower section and, passing through the suspended layer created in the vertical shelves, additionally enlarges and settles, in addition, the angle of inclination and the height of the vertical the sections are made decreasing along the settling tank in the direction of fluid flow, which makes it possible to equalize the flow rates at the beginning and at the end of the structure, which, in turn, promotes uniform sedimentation of particles in the structure. Reducing the angle of inclination of the sections allows the flow to be directed along a horizontal line, which will allow even smaller particles to settle, as the flow resistance of the particle decreases by reducing the height of the layer, and the particle moves along the shortest distance.

The drawing shows a thin layer settler, general view, section.

The thin layer settling tank consists of a rectangular casing, a feed pipe 1, a distributor 2, a collecting tray 3 and inclined shelf shelving sections, the shelves of which are formed by vertical 4 and inclined 5 plates forming dihedral angles. The height of the vertical plates and the angle of inclination of the inclined plates decrease in the direction of movement of the fluid. The space between the plates as a whole constitutes the settling zone 6, the precipitated particles are collected in the sediment accumulation zone 7 and discharged through the pipeline 8.

The sump works as follows.

The original two-phase fluid through the pipeline. 1 through the distribution, the supply device, 2 is fed into the settling zone 6. Next, the liquid enters the space between the vertical sections, where the main flow of the main stream is divided into small layers. J this one; the zone is the deposition of the most large particles due to the impact; gravitational forces. In this case, the movement of the liquid is opposite to the movement of the sediment, therefore, some of the particles are suspended, forming a suspended layer. Particles having a density less than the density of a liquid are carried along with the flow upwards, but pass through the suspended layer, which serves as a kind of filter, coalesce and settle, i.e. particle agglomeration occurs.

Then the liquid enters the sloping part of section 5, where the turbulence of the flow decreases, facilitates better sedimentation of particles, and the settled particles on the lower wall of the inclined shelves slide down into the vertical zone, agglomerated in the suspended layer. Increasing the total length of the shelf space increases the volume utilization factor of the structure. In the shelf space, the liquid moves in parallel jets, therefore, the particles are freely deposited, in a very short period of time, increasing the capacity of the structure.

At the entrance to the facility, the stream carries particles of various sizes. First, heavy particles will be precipitated from smaller particles under CONDITION. When the fluid moves parallelly and horizontally, using a change in the angle of inclination of the inclined sections. The sediment accumulates in the sediment accumulation zone 7 and is periodically removed through the pipeline 8, and the purified liquid is discharged through the catchment device 3.

The positive effect of the present invention is a reduction in the settling time and an increase in the capacity of the structure.

Claims (1)

Invention Formula A thin-layer settling tank, comprising a housing, a water distribution and catchment device, inclined precipitation shelf sections, a sludge drainage pipeline, which is designed so that, in order to increase the efficiency of cleaning the liquid and the volume utilization factor of the structure, inclined shelves are made in the form of vertical and upper oblique plastics, while the height of the vertical plates and the angle of inclination of the inclined plates decrease in the direction of the fluid movement. "S