RU2137884C1 - System for carrying-away and purification of surface effluent - Google Patents

Abstract

FIELD: environmental control in construction activities. SUBSTANCE: this relates to system of carrying-away and purification of effluent of rain, thawing, and sprinkling water from motor roads, slopes, road side ditches, built-up areas, industrial sites, etc. System has water drain collector, receiving chamber, settling chamber which is divided by dike with bottom overflow opening into two sections of coarse and fine purification. Also provided is dividing chamber with water supply passages, water branching passages, and water discharge passages for effluent water being treated, and with spillway trough. Filtration chamber is filled with natural sorbent and together with branching collector is waterproofed. System is provided with regulating reservoir and purification facility in the form of biological pond which is created of shallow-water plateau and deep-water basin. Bottom, walls, and filtering members of all structures in system are made from natural permeable materials with porosity factor not less than 10% and filtration speed from 0.1 to 1.0 m/s. Application of aforesaid system reduces capital expenses and operating cost due to simplified construction of system and additional purification of effluent. EFFECT: higher efficiency. 8 cl, 6 dwg

Description

 The invention relates to the field of construction, namely to the protection of the environment, in particular to the prevention of pollution of water bodies removed from the roadbed, slopes, ditches, from built-up areas and other drains of rain, melt and irrigation water.

 Irrigation, melt, rainwater discharged from the road, slopes, ditches and built-up areas pollute natural watercourses and groundwater. Contaminants include abrasion material of the roadway, components of anti-icing mixtures and other substances that fall from the roadway to a nearby territory located in the zone of influence of the road, as well as soil and soil particles that are washed away from slopes as a result of erosion processes.

 The list of pollutants includes: suspended solids, organic substances (mainly oil products), inorganic substances (mainly metals: lead, cadmium, zinc, etc.), as well as chlorine, magnesium, calcium, sodium.

 To prevent pollution of the water body and to maintain its satisfactory ecological state, drainage and treatment systems for irrigation and rainwater are used before discharge into water bodies. A known system of drainage and treatment of surface runoff containing a rain sewer collector, a separation chamber with a partial discharge of untreated surface runoff to a water body, treatment facilities and discharge of the treated surface runoff to a water body or to a production water supply system (1).

 A disadvantage of the known system is that due to the content of specific impurities with toxic properties, it is necessary either to increase the size of the treatment plant, their required power, or to provide for regulation of the flow rate.

 The closest in technical essence and the achieved result for the drainage and treatment of irrigation and rainwater is a surface drainage and treatment system, including a drainage collector, a settling chamber, a separation chamber with an inlet, outlet and side outlet of the liquid to be cleaned, a filter chamber and a discharge manifold (2 )

 A disadvantage of the known devices is that they are not intended for the drainage and treatment of melt water, in addition, the structural elements of the drainage system and surface drainage are made of reinforced concrete or metal, which leads to high capital costs, and the presence of a large number of mechanical components - valves, siphons and floats - increases the likelihood of failures, complicates the operation of the system and leads to increased operating costs. Also, the known drainage and surface drainage treatment systems do not meet the aesthetic requirements for landscape conservation along roads, which is recommended by regulatory documents.

 The objective of the invention is the creation of a system for the removal and treatment of surface runoff (stormwater, watering and melt), which allows to reduce capital costs, reduce operating costs and to ensure compliance with the aesthetic requirements for preserving the landscape along the road in accordance with applicable regulations.

 The technical result is achieved by the fact that the system of drainage and treatment of surface runoff, including a drainage collector, a settling chamber, a separation chamber with an inlet, outlet and side outlet of the liquid to be cleaned, a filter chamber, a discharge manifold, is equipped with a control tank and a treatment plant in the form of a biological pond, consisting of from a shallow bioplate and a deep-water basin, and the settling chamber is divided by a dam with bottom bypass into two sections of coarse and fine cleaning. The filter chamber is located behind a deep-water pool, is separated from it by a filter dam with bottom bypass, is a filter chamber for purification and is filled with a natural sorbent, while a drainage collector, a settling and separation chamber regulating the tank, a sewage treatment plant in the form of a biological pond, a filter chamber and a discharge collector made waterproofed from the surrounding soil and communicated in the indicated sequence (entrance, exit and lateral exit of the separation chamber is made in the form of water supply, water drainage and drainage channels, respectively), a spillway is placed in the separation chamber, which is connected upstream to the water supply channels and downstream to the water drainage channels, the bottoms, walls and filter elements of all system structures made of natural permeable materials having the porosity coefficient is not less than 10% and the filtration rate is from 0.1 to 1.0 m / s.

 The spillway tray of the separation chamber is made of filter material and fills the lower part of the chamber to a height not exceeding the bottom of the spillways, and the spillways are located in height below the spillways.

 The separation chamber and the control tank are connected in one unit and the separation chamber is located inside the control tank. The control tank is designed as an open water pool.

 The downstream wall of the control tank is a spillway whose crest height determines the maximum water level in the tank.

 The biological pond and the filter chamber of the post-treatment form two sections of the treatment plant.

 The shallow-water bioplate is planted with higher aquatic plants and smoothly passes into a deep-water basin, the surface of which is populated by freely floating non-rooted or submerged plants.

 Peat, clay, dolomite or calcareous flour are laid at the bottom of a shallow bioplate and a deep-water basin, and the depth of the bioplate is at least 5 cm.

 The deep-water basin has a water thickness of at least 0.8 m. The bottom bypass of the filtering dam of the filter chamber is located at a height of not more than 0.3 m above its bottom and below the water level of the deep-sea basin.

 In FIG. 1 schematically shows a drainage and surface drainage treatment system (longitudinal section). Figure 2 is a section along aa of figure 1, figure 3 is a section bb of figure 1, figure 4 is a section bb of figure 1, figure 5 is a section g-d of figure .1, in FIG. 6 is a section DD DD of figure 1.

 The system of drainage and surface runoff cleaning includes a gutter collector 1, a settling chamber 2, a separation chamber 3 with an inlet, an outlet, and a side outlet made in the form of water supply 4, water discharge 5 and spillway 6 channels, respectively, respectively, a control tank 7 in communication with each other the separation chamber 3, the treatment plant 8, the filter chamber 9 and the outlet manifold 10. The treatment plant 8 is a biological pond consisting of a shallow bioplate 11 and a deep-sea basin 12. settling chamber 2 is divided dam 13 with bottom bypass into two sections: a coarse 14 and fine purification 15, respectively. The filter chamber 9 is located behind the deep-water pool 12, separated from it by a filter dam 16 with a bottom bypass hole and filled with a natural sorbent. In the separation chamber 3 there is a drainage tray 17 connected upstream to the water supply channels 4 and downstream to the water drainage channels 5. Gutter collector 1, settling 2 and separation 3 chambers, regulating the tank 7, treatment plant 8 in the form of a biological pond, filter the chamber 9 and the outlet manifold 10 are made waterproof from the surrounding soil. The bottoms, walls and filter elements of all the system structures are made of gabion structures having a porosity of at least 10% and a filtration rate of 0.1 to 1.0 m / s, in which natural inert materials of a size fraction of 5-50 cm are used, presented granite, basalt, gneiss.

 The system of removal and treatment of surface runoff (rain, irrigation and melt water) works as follows.

Surface effluents from the roadbed, together with garbage and oil products, flow into the water supply collector 1 and enter the rough cleaning section 14 of the settling chamber 2, where they are freed from large mechanical impurities. Further, the surface runoff flows by gravity through the bottom bypass in the dam 13 into the fine cleaning section 15 of the settling chamber 2. In the fine cleaning section 15, the contaminated water is purified from smaller impurities. The surface runoff cleared of small impurities through the spillway crest enters the water supply channels 4 of the separation chamber 3. Low-intensity waste water is filtered in the water drain tray 17 and through the water discharge channels 5 enter the control tank 7. High-intensity waste water through the water discharge channels 6 enters the control tank 7. The water drain 17 is made of filter material and fills the lower part of the separation chamber 3 to a mark not exceeding the bottom of the spillway channels 6. The drainage channels 5 are located the wife in height below the spillway channels 6, and the spillway 17 is connected downstream to the spillway channels 6. The control tank 7 is made in the form of an open-water basin, and the downstream wall of the control tank 7 is made in the form of a spillway 18, the height of the ridge of which determines the mark maximum level in the control tank 7
As water passes through the settling chamber, the separation chamber, and the control tank, additional effluent treatment occurs in the body of permeable gabion structures.

 Further, surface runoff through the crest of the spillway 18 flows into a biological pond, consisting of a shallow bioplate 11 and a deep-water basin 12, planted with higher aquatic plants (macrophytes) and non-rooted plants. The natural system in the form of a biological pond has a large sorption capacity when cleaning the surface runoff from oil products and heavy metals due to the fact that the populated plants have significant self-cleaning properties. The shallow bioplate 11 is planted with reeds, cattail, reed, sedge, pest, and provides biodegradation of oil products of road drains, binds compounds and ions of heavy metals. The thickness of the water layer in a shallow bioplate 11 above the ground is not less than 5 cm. In the deep water basin 12, anaerobic decomposition of the organic matter of effluents and oxidized derivatives of petroleum products takes place, and heavy metal compounds bind and accumulate. In addition, biological filtration of wastewater by zooplankton organisms and sedimentation of fine suspensions by a community of unrooted macrophytes - duckweed, multi-root, and water hyacinth occur in the water column. The depth of the deep sea basin is not less than 0.8 m.

 From the deep-water basin 12, water at the bottom bypass in the body of the filter dam 16 enters a full-flow filter chamber 9 filled with a natural sorbent, where the surface water is treated after the biological processes are reduced due to weather conditions, mechanical or other damage to the ecosystem of the biological pond . The water bypass holes of the bottom water bypass are raised 0.3 m from the bottom. The bottom water bypass allows only bottom water to be removed, free of suspended matter and organic matter. After that, the purified water through the crest of the spillway 19 is discharged along the discharge collector 10 into the reservoir.

 Using the proposed drainage and surface drainage system reduces capital costs, reduces operating costs by simplifying the design of the system and additional purification of effluents during filtration through gabion structures.

 The implementation of the treatment plant in the form of a biological pond, consisting of a shallow bioplate and a deep-water basin, provides a sufficiently high degree of purification, which allows you to discharge these waters into a water body without disturbing the ecological situation in the latter.

Claims (9)

 1. The system of removal and purification of surface runoff, including a drain collector, a settling chamber, a separation chamber with an inlet, outlet and side outlet of the liquid to be cleaned, a filter chamber, a discharge manifold, characterized in that the system is equipped with a control tank and a treatment plant in the form of a biological pond, consisting of a shallow bioplate and a deep-water basin, moreover, the settling chamber is divided by a dam with bottom bypass into two sections of coarse and fine cleaning, respectively, a filter chamber Era is located behind a deep-water pool, separated from it by a filter dam with bottom bypass, is a filter chamber for purification and filled with natural sorbent, while the drainage collector, the settling and separation chamber regulating the tank, the treatment plant in the form of a biological pond, the filter chamber and the discharge collector are made waterproofed from surrounding soils and communicated in the indicated sequence, the inlet, outlet and lateral exit of the separation chamber are made in the form of a water supply of drainage channels, drainage channels and drainage channels, respectively, in the separation chamber there is a drainage tray connected upstream to the water supply channels and downstream to the drainage channels, and the bottom, walls and filter elements of all structures of the system are made of natural permeable materials having a porosity coefficient not less than 10% and a filtration rate of 0.1 - 1.0 m / s.  2. The system according to claim 1, characterized in that the spillway of the separation chamber is made of filter material and fills the lower part of the chamber to a height not exceeding the bottom of the spillway channels, and the spillway channels are located in height below the spillway channels.  3. The system according to any one of claims 1 and 2, characterized in that the separation chamber and the control tank are connected in one unit and the separation chamber is placed inside the control tank.  4. The system according to any one of claims 1 to 3, characterized in that the control tank is made in the form of an open water pool.  5. The system according to any one of claims 1 to 4, characterized in that the downstream wall of the control tank is a spillway, the height of the crest of which determines the maximum water level in the tank.  6. The system according to any one of claims 1 to 4, characterized in that the biological pond and the filter chamber of the aftertreatment form two sections of the treatment plant.  7. The system according to any one of claims 1 and 6, characterized in that the shallow-water bioplate is made by planted aquatic plants and smoothly passes into a deep-sea pool, the surface of which is populated by freely floating non-rooted or submerged plants.  8. The system according to any one of claims 1, 6 to 7, characterized in that the deep-sea pool has a water thickness of at least 0.8 m.  9. The system according to claim 1, characterized in that the bottom bypass of the filter dam of the filter chamber is located at a height of not more than 0.3 m above its bottom and below the water level of the deep water basin.

Images