RU8711U1 - RAIN WATER TREATMENT SYSTEM - Google Patents

Abstract

1. A rainwater treatment system, including a drainage collector sequentially interconnected, a gravity settler divided into two sections - coarse and fine purification, a filter section and a treated water drain manifold, characterized in that the coarse and fine purification sections are separated by an overflow partition , the fine-cleaning section is divided into two chambers by a partition with a channel communicating with each other below the water level in them, and the downstream chamber is separated from the filter section implicit septum, wherein the filter section is formed as a filtration basin filled with an upper layer of quartz sand, natural sorbents with a middle layer and a bottom drainage layer, communicating with the outlet manifold purified vod.2. The system according to claim 1, characterized in that the top quartz sand layer is made not less than 0.2 m high and has a particle size distribution from 0.7 • 10 to 1.2 • 10 m. The system according to one of claims 1 or 2, characterized in that the middle layer of natural sorbents is made of zeolite, schungite and / or flask with a height of at least 1.5 m and a particle size distribution from 0.5 • 10 to 4 • 10 m. 4. The system according to one of claims 1 to 3, characterized in that the partitions, walls and bottoms of the gravity sump and filter section are made of gabions and are waterproofed. 5. A system according to one of claims 1 to 4, characterized in that the outlet of the treated water drain collector is located above the level of the drainage layer. 6. The system according to one of claims 1 to 5, characterized in that the bottoms of the gravity sump and filter section are located below ground level.

Description

Rainwater Treatment System

The utility model relates to the field of construction, namely, to rainwater treatment systems that prevent pollution of water bodies.

A well-known rainwater treatment system, including a gutter collector, a gravity settler divided into two sections - coarse and fine purification, a filter section and a sewage drain collector (see copyright certificate No. 1390320, class E 03 F 5 10, sequentially communicated to each other) publ. 1988)

A disadvantage of the known system is large capital investments and operating costs, because it is made of metal containers with shut-off valves and requires frequent regeneration of the filter material.

The objective of the patented utility model is to create a rainwater treatment system with low capital and operating costs with an extended service life before the regeneration of filter materials.

This task is achieved by the fact that in a rainwater treatment system that includes a gutter collector, a gravity settler divided into two sections - coarse and fine purification, a filter section and a treated water drain manifold, in contrast to the prototype, coarse and thin sections purifications are separated by an overflow partition, the fine-cleaning section is divided into two chambers by a partition with a channel communicating with each other below the water level in them, and the downstream chamber is separated from the filter section by an overflow partition, moreover, the filter section is made in the form of a filtration pool filled with a top

 EOZ F5 / 10

a layer of quartz sand, a middle layer of natural sorbents and a lower drainage layer in communication with the sewage drainage collector.

This task is achieved in the same way that the top layer of quartz sand is made not less than 0.2 m high and has a particle size distribution from 0.7 10-3 to 1.2-10-3m.

And also the fact that the middle layer of natural sorbents is made of zeolite, shungite and / or flask with a height of at least 1.5 m and a particle size distribution of 0.5-10-s to 4 Yu m.

And also by the fact that the partitions, walls and bottoms of the gravity settler and the filter section are made of gabions and waterproofed.

And also by the fact that the outlet of the treated water drain collector is located above the level of the drainage layer.

As well as the fact that the bottoms of the gravity sump and filtration section are located below ground level.

The drawing shows a rainwater treatment system (longitudinal section).

The rainwater treatment system includes a gutter collector 1, a gravity settler 2, a filter section 3 and a collector for treated water sequentially communicated to each other 4. The gravity settler 2 is divided by overflow 5 into two sections - rough 6 and fine 7. In turn, the fine cleaning section 7 is divided by a partition 8 into two chambers 9 and 10. In the partition 8, a channel 11 is made, communicating the chambers 9 and 10 with each other under the water level in them. The chamber 10, located downstream, is separated from the filter section 3 by an overflow baffle 12. The upper edge 13 of the overflow baffle 12 is located below the upper edge 14 of the overflow baffle 5, and the channel 11 is located below the upper edge 13 of the overflow baffle 12. This allows water to flow by gravity.

The filter section 3 is made in the form of a filtration pool 15, filled with the upper layer 16 of quartz sand, the middle layer 17 of natural sorbents and the lower drainage layer 18.

The lower drainage layer 18 is in communication with the sewage drainage collector 4. The outlet 19 of the sewage drainage 4 can be located above the level of the drainage layer 18. The height of the upper layer 16 is at least 0.2 m, and the particle size distribution of quartz sand in this layer is ranging from 0.7-10-s to 1.2 10 m. The middle layer of 17 natural sorbents is made of zeolite, schungite and / or flask with a height of at least 1.5 m and has a particle size distribution from 0.5-10-s to 410 m.

Partitions 5, 8 and 12, walls 20 and bottoms 21 and 22, respectively, of the gravity settler 2 and the filtration section 3 are made of gabions and are waterproofed. Gabion is a box of metal mesh filled with rubble (see Polytechnical Dictionary, M., Soviet Encyclopedia, 1980, p.99). The waterproofing 23 may be made of a plastic film covering the corresponding internal and external surfaces of the system. The bottom 22 of the filter section 3 can be combined with the lower drainage layer 18, which is not waterproofed from above.

The bottoms of the gravity settler 2 and the filter section 3 are located below ground level 24.

A rainwater treatment system is being constructed near, for example, highway 25, along which a catchment channel 26 passes, which communicates with a drainage collector 1.

The rainwater treatment system operates as follows.

Polluted rain water from the roadway 25, along with debris and oil products that may be on it, flows into the drain pan 26 and then into the drain collector 1. From the drain collector 1, the polluted rain water enters the coarse cleaning section 6 of gravity settler 2, where it is released from large mechanical

impurities that may be contained in it. Then, rainwater flows by gravity through the upper edge 14 of the overflow partition 5 into the fine cleaning section 7 of the gravity settler 2. In the fine cleaning section 7, the contaminated rain water is purified from smaller impurities and from undissolved oil products that accumulate with a thin film on the surface of the water near the partition 8. This film is periodically removed. Purified from undissolved oil products, rainwater through the channel 11 enters the chamber 10, where it is still purified from suspended fractions, and then through the upper edge 13 of the overflow partition 12 enters the filtration pool 15. Here, the rainwater, being filtered first through the upper layer 16 of quartz sand, and then, through the middle layer of natural sorbents 17, it is cleaned of dissolved organic substances (oil products) and metals and through the lower drainage layer 18 it is sent to the collector of treated water 4, from which it can be directed Get into natural gutters or ponds. Effective cleaning in the filtration pool 15, as shown by studies, occurs when the top layer 16 of quartz sand is made with a height of at least 0.2 m and sand size from 0.7-10-s to 1.2-10 m, and when the middle layer 17 natural sorbents from zeolite, shungite and / or flask with a height of at least 1.5 m and particle size from 0.5 10 to 4 10-m. The middle layer 17 can be made of one natural sorbent or a mixture of several natural sorbents, and can also be made of several separate layers of various natural sorbents with a total Height of at least 1.5 m. The ground drainage layer 18 is performed as a rule, from debris. The implementation of partitions, walls and bottoms of gabions significantly reduces the cost of building a cleaning system.

Claims (6)

1. A rainwater treatment system, including a drainage collector sequentially interconnected, a gravity settler divided into two sections - coarse and fine purification, a filter section and a treated water drain manifold, characterized in that the coarse and fine purification sections are separated by an overflow partition , the fine-cleaning section is divided into two chambers by a partition with a channel communicating with each other below the water level in them, and the downstream chamber is separated from the filter section implicit septum, wherein the filter section is formed as a filtration basin filled with an upper layer of quartz sand, natural sorbents with a middle layer and a bottom drainage layer communicating with the manifold outlet of treated water. 2. The system according to claim 1, characterized in that the top layer of quartz sand is made at least 0.2 m high and has a particle size distribution from 0.7 • 10 ^-3 to 1.2 • 10 ^-3 m. 3. The system according to one of claim 1 or 2, characterized in that the middle layer of natural sorbents is made of zeolite, schungite and / or flask with a height of at least 1.5 m and a particle size distribution from 0.5 • 10 ^-3 to 4 • 10 ^-3 m.  4. The system according to one of claims 1 to 3, characterized in that the partitions, walls and bottoms of the gravity sump and filter section are made of gabions and are waterproofed.  5. The system according to one of claims 1 to 4, characterized in that the outlet of the treated water drain collector is located above the level of the drainage layer. 6. The system according to one of claims 1 to 5, characterized in that the bottoms of the gravity sump and filter section are located below ground level.