SU1733042A1 - Settling tank for cleaning natural and waste water - Google Patents

Abstract

The invention relates to structures for the mechanical purification of suspended water flows, namely, to thin-settling tanks with parallel inclined plates for purifying natural and waste waters with finely dispersed soils, which allows increasing the degree of purification of natural and waste waters containing dispersed suspended particulate matter. due to the distribution of the precipitated suspended substances. The settling tank includes a settling part 1 in the housing 2, parallel plates 3 installed with a slope in the direction of flow of the suspension, and a supply channel-distributor 4, with parallel plates 3 installed unevenly along the height of the settling part 1 with an increase in the distance between them from top to bottom, which corresponds to an increase in the volume concentration of suspended substances in the fluid flow. The invention allows the use of a structure with a smaller volume than that of the same amount of water known for cleaning. 1 il. SO with

Description

The invention relates to structures for the mechanical purification of suspended flows of water, namely, to thin-bed septic tanks with parallel inclined plates for the purification of natural and waste waters with finely dispersed soils.

A thin layer settler is known, in the casing of which a package of inclined parallel plates is placed, the plates being equally spaced from one another.

It is also known a device in which the upper edges of the plates are uniformly shifted relative to each other vertically in such a way that they lie in a plane inclined to the horizontal at a certain angle, in accordance with the plot of velocity distribution along the depth of the feed channel.

The main disadvantage of the known devices is the low degree of utilization of the volume of the working (sedimentation) part of the settling tank, due to the insufficiently correct use of the physical essence of the process of transporting fine sediment in the feed channel and settling them in the settling tank.

It is known that sediments transported by the stream are extremely unevenly located in it (at the bottom of them, even with the same hydraulic size, it is much larger than at the surface). This uneven distribution of sediment over the depth of flow increases significantly with a decrease in the longitudinal flow velocity, especially with multi-fractional composition of contaminants (sediments), since larger sediments are distributed even more unevenly with depth.

Under the conditions of water purification from finely dispersed soils, the speed in the feed channel is so small that the amount of sediment at the bottom of the channel is an order of magnitude or more than the amount at the surface of the stream.

With a uniform distribution of parallel plates under such conditions, the load on the lower layers of the thin layer settler is so high that they are often completely clogged with sediments, since their sliding from the plate is much slower than the deposition of a large amount of suspension from the lower, most saturated layers of the feed stream. Even higher plates are not very efficient, because although the distance between them is not completely blocked by sediment, there is a significant contraction due to the deposition of water layers.

between the plates in the middle part of the sump leads to a corresponding increase in the rate of water flow between the plates, which leads to a stirring up and

leaching of already deposited sediments, i.e., secondary water pollution.

The closest in technical essence to the present invention is a sewage treatment tank consisting of a body, a supply channel and parallel plates in the body.

A disadvantage of this device is the low degree of wastewater treatment.

The purpose of the invention is to increase the degree of purification of natural and waste waters containing a multi-fractional composition of dispersed suspended substances.

This goal is achieved by the fact that in a settling tank for natural and wastewater treatment, comprising a body, parallel plates installed with a slope in the direction of flow of the suspension and a supply distribution channel, the plates are installed along the height of the body with increasing distances between them from top to bottom. Such an arrangement of the plates due to the following. The lower layers of the flow of the distributor channel to the settling tank transport the largest particles with a maximum volumetric concentration, therefore, the intensity of their fallout from the flow is very high and to equalize the volume of the precipitated particles and sliding from the plate in order to eliminate a significant reduction in the cross section of the liquid layer plates, the distance between the plates increases from top to bottom in proportion to the increase in the volume concentration of sediment in

appropriate flow. The widest distances between the lower plates, despite the large sedimentation rate, overlap them by an insignificant relative amount and

the sump works more efficiently with the whole section.

The drawing shows a longitudinal section of the proposed sump.

The sump includes sediment part 1

in the housing 2, parallel plates 3, installed with an inclination in the direction of flow of the suspension, and a supply channel-distributor 4, the parallel plates 3 being installed unevenly along

the height of the settling part 1 with an increase in the distance between them from top to bottom.

The sump works as follows.

In the distribution manifold 4, water containing dispersed multi-fractional suspended solids, the concentration of which is distributed in a suitable stream, is fed to the settling part 1, the lower most concentrated layers falling into the widest lower layers between the parallel plates 3 and despite intensive precipitation sediments on the plates 3, their volume is insufficient to significantly or completely cover the distance between the plates 3. And above, the located, less saturated sediments layers of the flow are clarified in narrower upper layers between the plates 3, the small thickness of which is sufficient to precipitate a small amount of sediment contained in them, since at the same time 3 sediments deposited on all the plates are slipping and thus a dynamic equilibrium is established to ensure efficient operation of the proposed settling tank.

The positive effect of the device is that the more efficient operation of the sump of the proposed construction allows the use of a smaller structure compared to the same amount of water known for cleaning. In addition, wider distances

between the plates at the bottom of the settler can save up to 30% of the material consumed for the manufacture of partitions.

Claims (1)

Invention Formula Natural and waste water purification tank, comprising a casing, parallel plates installed with a slope in the direction of the suspension flow, and a supply distributor channel, characterized in that, in order to increase the efficiency of purification of natural and waste waters containing a different fractional composition of dispersed suspended substances The plates are mounted along the height of the body with an increase in the distance between them from top to bottom.