RU2274612C1 - Installation for purification of the surface water run-off - Google Patents

Abstract

FIELD: purification of the surface water runoff; production of installations for purification of the surface water runoff in settlements and industrial enterprises.

SUBSTANCE: the invention is pertaining to the field of the equipment for purification of the surface water runoff, in particular, to the installations for the surface water runoff purification from mechanical impurities and petroleum in settlements and industrial enterprises - especially those allocated in conditions of shortage of free areas, and also drainage waters. The installation for purification of the surface water runoff contains: the lifting-adjusting reservoir with the headrace collector and the overflow pipeline; the body divided by the longitudinal partitions into the storing chambers; the pure water chamber and the settling chamber supplied with the means for removal of settling and the pop-up pollutions; the siphons mounted in one section of the chambers, the water-raising pumps, the screens with the grainy loading, the pipelines for feeding and withdrawal of the waters, the sediment and floating matters, the unit of sediment dehydration, the vertical netted shaft. The storing up chamber adjacent to the settling chamber is divided for two intercommunicating sections. The settling chamber is supplied with the stream-guiding partition and the rigidly fixed chutes. The settling chamber and the first section of the adjacent storing up chamber have the common fittings for withdrawal of the floating matters. In the last storing up chamber there is the overflowing pipeline. In the chamber of the pure water there are the gravitational grainy screens of the first stage with the pipelines and the collecting tank of the purified water. The pressure grainy screens of the second stage are arranged above the lifting-adjusting reservoir and the storing up chambers. The technical result of the invention is the improved quality of the purified water and decreased power input.

EFFECT: the invention ensures improved quality of the purified water and decreased power input.

8 cl, 3 dwg

Description

The invention relates to facilities for cleaning and regulating surface runoff from mechanical impurities and oil products and can be used to clean the surface runoff of populated areas and industrial enterprises, especially those located in crowded areas, as well as drainage water.

A known installation for cleaning and regulating surface runoff, including a control tank for the accumulation and partial purification of rainwater wastewater by settling and filtering through a filter of porous concrete in the conditions of existing buildings (M.I. Alekseev, A.M. Kurganov. Organization of the disposal of surface (rain and snowmelt) runoff from urbanized territories: Textbook. - M.: DIA. - 2000. - 352 p., Fig. 7.14). The installation includes a housing in which a separation chamber for the source and treated waters is allocated, between which a filtering partition made of porous concrete is mounted. The first, most concentrated, portions of contaminated surface runoff are cleaned. The retained impurities are pumped to the dewatering unit.

The disadvantage of this technical solution is the low efficiency of water treatment due to the lack of removal from the installation of the selected contaminants in the form of leaves, branches, plastic bottles, bags, etc., washing water filters discharged into the outlet collector, as well as the need to deepen the tank with accumulation of excess flow rainwater or drainage water, which generally degrades the economic and environmental characteristics of the installation.

The closest in technical essence is the installation for surface runoff cleaning, containing a lifting and control tank with a supply manifold in the lower part and an overflow pipe in the upper part, a housing divided by longitudinal partitions into storage chambers, which are made with overflow slots, each of which is equipped with a box - a visor located below the layer of floating oil products, a clean water chamber and a settling chamber equipped with devices for removing sludge and floating pop-ups of knowledge, siphons between chambers, water-lifting pumps, filters with granular loading (waste products of production of flexible polyurethane foam), pipelines for supplying and discharging water, sludge and floating substances, sludge dewatering unit (ed. certificate of the USSR No. 1353738, C 02 F 1/00. )

This technical solution is taken as a prototype.

The disadvantage of the prototype is the low cleaning efficiency that does not provide regulatory requirements for the discharge of treated water into fishery ponds or their use for industrial water supply needs, as well as increased energy costs for pumping the entire volume of accumulated wastewater.

The objective of the invention is to improve the quality of purified water and reduce energy costs.

This task is achieved in that the installation for surface runoff cleaning, comprising a lifting and control tank with a supply manifold in the lower part and an overflow pipe in the upper part, a casing separated by longitudinal partitions into storage chambers, a clean water chamber and a settling chamber equipped with devices for removing sediment and pop-up contaminants, siphons between chambers, water-lifting pumps, filters with granular loading, pipelines for supplying and discharging water, sediment and floating substances, knots l sludge dewatering, and the lifting and regulating tank is equipped with a vertical mesh shaft, the accumulating chamber adjacent to the settling chamber is divided into two communicating compartments, and the settling chamber is equipped with a vertical, not reaching the bottom, transverse flow diverting wall and rigidly fixed trays that divert water to the second compartment the adjacent storage chamber, the settling chamber and the first compartment of the adjacent storage chamber have common devices for discharging floating substances, while they are mounted through one compartment, in the last accumulating chamber in the direction of the flow of water, an overflow pipe is located located above the siphons, and in the clean water chamber there are gravitational granular filters of the first stage with pipelines and a collection pocket of treated water, and pressure granular filters of the second stage are located above the lift -regulating tank and storage chambers.

In addition, the mesh shaft is made with a bottom in the lower part and open in the upper part and is equipped with devices for collecting and removing floating contaminants. Also, the lifting and regulating tank has openings equipped with plugs with counterweights.

At the same time, gravitational granular filters of the first stage are made with a radial direction of filtration, mainly from the center to the periphery, and non-return valves are mounted on the pipelines of the source water, and the granular filter loading is made mainly of anthracite.

In addition, the collection pocket of treated water is separated from the clear water chamber by an overflow wall.

In addition, the sludge dewatering unit is equipped with devices for layer-by-layer removal of the separated liquid.

And each subsequent accumulating chamber has bottom marks below the previous one with the equality of the estimated height of the liquid layer.

Figure 1 shows the installation for cleaning surface runoff (plan 1-1), figure 2 shows a section along (aa) of the installation for cleaning surface runoff, figure 3 - node A.

The installation consists of a supply collector 1, a settling chamber 2, accumulating chambers 3 and 4, a clean water chamber 5, rigidly fixed trays 6 and devices for collecting and removing floating contaminants 7, siphons 8 and 9. The settling chamber 2 has plugs 10 and a vertical, not reaching the bottom, the transverse flow diverting wall 11, and the storage chamber 3 adjacent to the settling chamber 2 is divided into two communicating compartments 12 and 13 by the longitudinal partition 14.

In the lifting and regulating tank 15 of the installation, a mesh shaft 16 is installed with a bottom in the bottom and open in the upper part, water-lifting pumps 17, a device for removing sludge, for example a hydraulic elevator 18, equipped with pipelines for supplying working fluid 19 and sludge 20, gravitational grain filters of the first stage with radial direction of filtration 21, equipped with pipelines for supplying clarified water with non-return valves 22, supply and discharge of wash water 23. Pressure granular filters of the second stage 24 are equipped with pipelines by water supply 25 for filtration to the filters of the second stage and drain 26 of treated water into the collection chamber of treated water 27, as well as pipelines of water supply for washing 28 and drain water 29. The collection chamber of treated water 27 communicates with the clean water chamber 5 through the overflow wall 30 and with the last accumulating chamber 4 through the overflow pipe 31 and has a pipeline for treating treated water 32. The unit is equipped with sludge dewatering units 33 with devices for layer-by-layer drainage of separated liquid and drainage water 34, unloading is dehydrated sediment 35, as well as the preparation and dosing of reagents 36 and disinfection 37.

Installation works as follows.

The surface runoff enters from the inlet collector 1 of the rainwater drainage network into the lifting and regulating tank 15 and passes through the mesh shaft 16, in which large contaminants are retained, collected and periodically removed (plastic, paper, foliage, etc.).

Wastewater is accumulated in the lifting and regulating tank 15 to the level of U1, after which its level increases due to the partial flooding of the wells of the rainwater drainage network without water coming to the surface. Water enters the settling chamber 2 through an opening with a plug 10, after closing which the water level rises to the mark U2. Next, with the help of a level switch, water-lifting pumps 17 are turned on, supplying wastewater to the settling chamber 2 through a vertical, not reaching the bottom, transverse flow diverting wall 11. It also receives filter wash water through pipeline 29, as well as after dehydration of the solid phase through devices for layer-by-layer drainage of liquid 34. The liquid settled in the settling chamber 2 is collected by the tray 6 and drains water through it to the second compartment 13 of the accumulating chamber 3. If the drainage capacity of the tray 6 is exceeded, the settled liquid it is discharged via a siphon 9 to the second compartment 13 of the storage chamber 3. The cleaned wastewater passes sequentially through the second 13 and the first compartment 12 and through siphons 8 enters the storage chamber 4. At the same time, floating oil products move along the surface of the cleaned liquid to devices for collecting and removing floating contaminants 7, from where they come to the storage of petroleum products for disposal.

With further flow inflows to 2, similar siphons 9 are drawn from the settling chamber to the storage tank 3. This, in turn, causes an increase in the water level in it and siphons 8 from the storage tank 3 to the storage tank 4. And so on, the water moves in the same way: the number of storage tanks depends on the requirements for the rainwater disposal system and rainfall intensity. In this case, each subsequent accumulating chamber has bottom marks lower than the previous one with the equality of the estimated height of the liquid layer.

From the latter in the direction of movement of the purified water in the accumulating chamber (in the given example, 4) through the clarified water supply pipelines with check valves 22, gravity water flows to gravity gravity filters 21 of the first stage with a radial direction of filtration, from which it flows into the clean water chamber 5, and then pumps are fed through pressure pipelines 25 to pressure granular filters of the second stage 24, passing through which through the purified water pipeline 26 it is sent to the collection tank of treated water 27. Here too, when In order to calculate the estimated flow rates through the overflow wall 27, purified water is filtered through the filters of the first stage 21, and excess clarified liquid is discharged from the last accumulating chamber 4 through the overflow pipe 31.

Mixing in a collection pocket of treated water 27, water is discharged from the installation through a pipeline of purified water 32. In the design mode, the removal of purified water through the pipeline 32 is carried out only after pressure granular filters of the second stage. If necessary, to increase the efficiency of water treatment, a unit for the preparation and dosing of coagulants 36 is provided with their introduction into a settling chamber or filters.

When the rain intensity stops or decreases below the calculated value, the drainage network starts to empty and the level in the lift-control tank 15 decreases. The plugs 10 prevent the outflow of settled water into the lift-control tank 15. For treating the accumulated water in 3 and 4 and in the settling chamber with 2 pumps continues the selection of purified water on the filters of the first stage of water, which causes a decrease in the liquid level in the chamber of pure water 5. This causes an increase in the filtration rate in gravitational grain filters of a ditch stage with a radial direction of filtration 21 due to a decrease in the pressure in the pouring water, which will lead to a drop in the liquid level in the accumulating chamber 4. The difference in the marks of the liquid levels in 4 and 3 will trigger siphons 8 between these chambers and cause siphons to work between the settling chamber 2 and accumulating chamber 3. Successive operation of siphons in the indicated mode will lead to the processing of accumulated volumes of rainfall.

During the processing of accumulated volumes of rainfall runoff (or regime water treatment), settled sediment is removed by moving sludge from the settling chamber 2 to the lifting and regulating tank 15. The hydraulic elevator 18 picks up the displaced sediment and feeds it to the dewatering unit 33 through the sludge pipe 20, having devices 34 for layered drainage of the separated liquid. Dehydrated sludge is discharged 37 and sent for disposal.

Claims (8)

1. Installation for cleaning the surface runoff, comprising a lifting and control tank with a supply manifold in the lower part and an overflow pipe in the upper part, a housing divided by longitudinal partitions into storage chambers, a clean water chamber and a settling chamber equipped with devices for removing sediment and pop-up contaminants , siphons between chambers, water-lifting pumps, filters with granular loading, pipelines for supplying and discharging water, sludge and floating substances, sludge dewatering unit, characterized I mean that the lifting and control tank is equipped with a vertical mesh shaft, the accumulation chamber adjacent to the settling chamber is divided into two communicating compartments, the settling chamber is equipped with a vertical transverse diverting partition that does not reach the bottom and rigidly fixed trays that discharge water into the second compartment of the adjacent accumulating chamber, the settling chamber and the first compartment of the adjacent storage chamber have common devices for discharging floating substances, while the siphons are mounted through one but the compartment, in the last accumulating chamber in the direction of the flow of water, an overflow pipe is located located above the siphons, and in the clean water chamber there are gravitational granular filters of the first stage with pipelines and a collection pocket of treated water, and pressure granular filters of the second stage are located above the lift-control tank and storage cameras. 2. Installation according to claim 1, characterized in that the mesh shaft is made with a bottom in the lower part and open in the upper part and is equipped with devices for collecting and removing floating contaminants. 3. Installation according to claim 1, characterized in that the lifting-regulating tank has openings equipped with plugs with counterweights. 4. Installation according to claim 1, characterized in that the gravitational granular filters of the first stage are made with a radial direction of filtration mainly from the center to the periphery and non-return valves are mounted on the pipelines of the source water. 5. Installation according to claim 1, characterized in that the granular filter loading is made mainly of anthracite. 6. Installation according to claim 1, characterized in that the collection pocket of treated water is separated from the clear water chamber by an overflow wall. 7. Installation according to claim 1, characterized in that the sludge dewatering unit is equipped with devices for layer-by-layer removal of the separated liquid. 8. Installation according to claim 1, characterized in that each subsequent accumulating chamber has bottom marks lower than the previous one with the equality of the estimated height of the liquid layer.

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