KR20120125825A - 3-stage modular runoff treatment facility applicable on various rainfall - Google Patents

Abstract

PURPOSE: A three stages integrated rainwater effluent treatment apparatus is provided to effectively remove non-point pollutants by differently treating initial rainwater and rainwater after the initial rainwater. CONSTITUTION: A three stages integrated rainwater effluent treatment apparatus includes a filtration penetrating bath(1), a filtration storing bath(2), and a filtration draining bath(3). The filtration penetrating bath filters water to be treated and penetrates the water into the ground. The filtration storing bath filters water to be treated overflown from the filtration penetrating bath and stores the water. The filtration draining bath filters water to be treated overflown from the filtration storing bath and drains the water. A settling bath is arranged at the upstream of the filtration penetrating bath. A water collecting well is arranged at the downstream of the filtration draining bath. Treated water from the filtration draining bath is collected in the water collecting well.

Description

3-stage modular runoff treatment facility applicable on various rainfall}

The present invention relates to a three-stage integrated rainfall effluent treatment apparatus suitable for various rainfall events. More specifically, the rainfall effluent during initial rainfall with a large amount of nonpoint contaminants and the rainfall effluent during initial rainfall after a low content of nonpoint contaminants By different treatment mechanisms, non-point pollutants can be removed more effectively, and non-point pollutants have been removed and rainwater runoff can be penetrated into the ground after initial rainfall to replenish groundwater or to store treated water to utilize rainwater as various types of water. , Modularized facilities can reduce construction period and cost by more than 10%, and can provide rapid construction technology that can reduce the amount of CO ₂ generated by construction by more than 20%. It relates to a effluent treatment apparatus.

According to the Climate Change and Water report of the Intergovernmental Panel on Climate Change (initiated in 1988), the climate of the earth has been changing constantly since the creation of the earth, and its causes are artificial and natural causes. (IPCC, 2008).

The natural causes of climate change are due to the combined activity of climate and global constituents (air, oceans, land, glaciers, orbits, changes in solar radiation, tectonic plates, etc.).

The cause of anthropogenic climate change is due to the release of surplus heat energy and the generation of CO ₂ due to the increase in energy use (continuous use and increase of fossil fuels), but due to the change of land cover and development projects due to the expansion of the city. The reduction in forests is also a major cause of this (Ministry of Land, Transport and Maritime Affairs, 2008).

According to the Korea Meteorological Administration data, Korea's air temperature has been continuously increasing since 1910, about 1.2 ℃ in 2000s, and rainfall has increased more than 200mm a year (Korea Meteorological Agency, 2010).

Such climate change is represented by natural and environmental disasters such as increase of rainfall, increase of temperature, increase of frequency of flood, change of aquatic ecosystem, and increase of drought, and its importance is increasing enough to affect the national economy. .

Korea's economy is closely related to energy imports, and energy management is a nationally important task because the increase in energy costs and the increase in imports are economic structures that have the disadvantage of deteriorating the trade balance.

In particular, the summer air temperature in Korea is over 25 ℃ and about 1 ℃ in winter. Due to this seasonal temperature difference, energy consumption for temperature management in summer and winter is severe.

In addition, the temperature difference between the permeable pavement and impervious pavement surface showed that the permeable pavement, that is, the pavement with water, showed an average temperature reduction of about 7 ° C in summer. It is analyzed to increase the temperature. Water retention and infiltration in pavement areas appear to be an important factor in reducing energy consumption.

The construction of roads and complexes in urban areas refers to the process of building natural spaces with various structures to provide human convenience. About 30% of urban spaces consist of impermeable roads where no water infiltration occurs during rainfall. It presents a variety of environmental and hydrological problems.

Increasing the impermeable layer leads to the distortion of the natural water circulation system, increasing rainfall and peak flows, and increasing the outflow of various nonpoint pollutants, causing urban flooding and water ecosystem destruction, and water pollution.

Past water management in urban areas, including roads and complexes, was a system that correctly drained extra rainfall runoff from the development area and was focused on flooding. However, climate change, temperature rise, water cycle distortion, and the increase of non-point pollutant outflow require the construction sector to complement the environmental repair function, and this change effort is focused on the development of green growth and smart growth in advanced countries. It appears to be the main content.

Green growth and smart growth are based on environment, economy, equality, and future commitment under the motto of coexistence of humans and ecosystems. Is selected.

The seven major issues include quality of life, construction design, economy, environment, health, residential planning, transportation, and more. Low impact development, water cycle, green building, low energy, green It includes axes, green spaces, rainwater management and ecological roads.

The construction field in green growth and smart growth has made water management, the source of life, an important issue because it seeks coexistence of ecosystem and construction through water management, that is, environment and development.

The rainfall characteristics of Korea show various types of rainfall by season, and even in the same rainfall phenomenon, various outflows of pollutants occur according to the characteristics of the watershed. In addition, pollutants included in rainfall runoff are included in rainfall runoff during initial rainfall, whereas rainfall runoff occurs during initial rainfall. Therefore, the initial runoff is discharged after removing and treating pollutants. After the initial stages, rainfall runoff has been adopted to bypass the pollutant removal process.

Most rainfall effluent treatment systems have discharged pollutant, initial rainfall runoff and contaminant removal, and rainfall runoff after the treatment is omitted.

Korea is one of the United Nations-designated water shortage countries, and the development, maintenance and management of surface water as well as groundwater is more important than ever.

Therefore, in order to efficiently utilize water resources in urban areas in order to prepare for future water shortages, it is necessary to develop core technologies for collection, purification and storage at each stage of the water cycle in order to reuse rainfall runoff from low-pollution roads and complexes. Do.

Specifically, the development of a natural compliant infiltration purification reservoir layer at the stage of collecting and purifying rainwater, the development of a natural compliant green permeation filtration technology at all stages of storage, and the modularization of eco-friendly and long-life rainwater storage tanks at the storage stage of the purified and filtered rainwater. Development of construction technology is necessary.

Naturally compliant infiltration purification reservoir layer technology and naturally compliant green permeation filtration technology improve the soundness of urban water environment, secure clean water resources, and use the infiltration filtration technology for the boiling point of initial rainwater (within 15mm of flow rate). It is necessary to commercialize a rainwater treatment system that can remove more than 80% of pollutants (based on TSS).

The eco-friendly and long-life rainwater storage tank modular rapid construction technology develops and applies precast manufacturing technology and rapid construction-related element technology to reduce the construction period and disclosure cost of precast rainwater storage tank by more than 10%, and reduce the amount of CO ₂ generated by construction. It is necessary to commercialize rainwater storage tanks that can reduce more than%.

Therefore, an object of the present invention is to change the treatment mechanism of rainfall runoff during rain and rain point during the initial rainfall with high content of non-point pollutants. It is to provide a three-stage integrated rainfall runoff treatment apparatus suitable for rainfall thinking.

Another object of the present invention is a three-stage suitable for a variety of rainfall events that can be used to make use of rainwater as a variety of water by replenishing the groundwater or by storing the treated water to penetrate the groundwater after the initial rainfall and non-point pollutant is removed. It is to provide an integrated rainfall runoff treatment apparatus.

Another object of the present invention is to modularize the device to reduce the construction period and disclosure costs by more than 10% and various rainfall to provide a rapid construction technology that can reduce the amount of CO ₂ generated by construction more than 20% It is to provide a three-stage integrated rainfall runoff treatment apparatus suitable for the event.

The present invention provides a filtration permeation tank for filtering the water to be treated is introduced to one side in order to achieve the above object; A filtration storage tank for filtering and storing the water to be treated flowing in the filtration permeation tank; And it provides a three-stage integrated rainfall outflow water treatment apparatus suitable for a variety of rainfall events, including a filtration discharge tank for filtering and discharge the treated water flowing into the filter reservoir tank.

In another aspect, the present invention, the filter permeation tank for filtering the water to be treated is introduced to one side to penetrate the ground; A filtration storage tank for filtering and storing the water to be processed that flows in from the filtration permeation tank; And a filtration discharge tank for filtering and discharging the treated water flowing in from the filtration storage tank, and further comprising a sedimentation tank upstream of the filtration permeation tank. To provide a three-stage integrated rainfall outflow water treatment apparatus suitable for various rainfall events configured to be introduced, further comprising a collecting well on the downstream side of the filtration discharge tank is configured to collect the treated water discharged from the filtration discharge tank to the collecting well.

In addition, the present invention is inserted into the treatment tank block having a bottom plate and the front and rear walls, the left and right side walls disposed on the left and right sides of the treatment tank block and spaced in the front and rear direction in the treatment tank block in order to achieve the above object. It is provided with a partition, and a filtration permeation tank is formed between the front wall and the partition, the filter storage tank is formed between the partitions, and the filter discharge tank is formed between the partition and the rear wall, characterized in that the modularization. It provides a three-stage integrated rainfall runoff treatment apparatus suitable for various rainfall events.

In addition, the present invention is inserted into the treatment tank block having a bottom plate and the front and rear walls, the left and right side walls disposed on the left and right sides of the treatment tank block and spaced in the front and rear direction in the treatment tank block in order to achieve the above object. It is provided with a partition, the filtration permeation tank is formed between the front wall and the partition, the filter reservoir is formed between the partitions, and the filtration discharge tank is formed between the partition and the rear wall is modularized, the precipitation tank The upstream wall spaced apart from the left side wall upstream, the front and rear walls connecting the front and rear ends of the left wall and the upstream wall and the bottom plate connecting the left wall, the upstream wall and the front and rear walls integrally formed in the sedimentation tank block And the water collecting wells are downstream walls spaced apart from the right wall downstream. Various rainfall events characterized in that the front and rear walls connecting the front and rear ends of the right wall and the downstream wall and the bottom plate connecting the bottom wall of the right and downstream walls and the front and rear walls are modularized by integrally formed water collecting blocks. It provides a three-stage integrated rainfall runoff treatment apparatus suitable for the present invention.

The present invention comprises a filtration permeation tank, a filtration storage tank, and a filtration discharge tank to change the non-point pollutant by varying the treatment mechanism of the rainfall effluent during the initial rainfall with a large amount of nonpoint pollutant and the content of the non-point pollutant after the rain. Can be removed more effectively.

In another aspect, the present invention further comprises a precipitation tank upstream of the filtration permeation tank to reduce the load of the filtration permeation tank by allowing the treated object water, which is the supernatant treated by the precipitation, to flow into the filtration permeation tank, and downstream of the filtration discharge tank. A water collecting well is further provided on the side to allow the treated water discharged from the filtration discharge tank to be collected in the collecting well, thereby acting as a buffer device according to the amount of treated water discharged from the filtration discharge tank, thereby more effectively treating the rainfall effluent. Will be done.

In addition, the present invention is to filter the treated water and the non-point pollutant is removed in the filtration permeation tank and rainfall runoff after the initial rainfall into the ground to replenish the groundwater, in the filtration storage tank to store the treated water to utilize the rain water as various water do.

The present invention also modularizes the filtration permeation tank, the filtration storage tank, and the filtration discharge tank by the treatment tank block, the left and right side walls, and the partition, and modularizes the sedimentation tank and the sump well into the sedimentation tank block and the sump well block, respectively. It can reduce more than 10% and provide rapid construction technology that can reduce the amount of CO ₂ generated by construction by more than 20%.

1 to 7 show a first preferred embodiment of the three-stage integrated rainfall runoff treatment apparatus suitable for various rainfall events according to the present invention,
1 is a perspective view,
2 is a partially disassembled exploded perspective view,
3 is a plan view,
4 is a cross-sectional view taken along the line AA of FIG.
5 is a cross-sectional view taken along line BB of FIG.
6 is a cross-sectional view taken along line CC of FIG. 3;
7 is a sectional view taken along the line DD of FIG. 3;
8 to 13 shows a second preferred embodiment of the three-stage integrated rainfall runoff treatment apparatus suitable for various rainfall events according to the present invention,
8 is a perspective view,
9 is a partially disassembled exploded perspective view,
10 is a plan view,
11 is a cross-sectional view taken along line EE of FIG. 10;
12 is a cross-sectional view taken along line FF of FIG. 10;
FIG. 13 is a cross-sectional view taken along the line GG of FIG. 10.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7 show a first preferred embodiment of the non-point pollutant removal and water resources expansion facilities according to the present invention.

Non-point pollutant removal and water resources expansion facilities according to the present embodiment is provided with a filter permeation tank (1) is provided on one side to filter the incoming water to be treated; A filtration storage tank (2) provided after the filtration permeation tank (1) to filter and store the water to be processed that flows in from the filtration permeation tank (1); And a filtration discharge tank 3 for filtering and discharging the water to be treated that flows in from the filtration storage tank 2 and flows in.

The filtration permeation tank (1), the filtration storage tank (2) and the filtration discharge tank (3) may be manufactured in separate structures, that is, concrete blocks, respectively, as shown in the figure, the bottom plate 11 and the front and rear barriers (12) Treatment tank block (10) having (13), left and right side walls (21) and (22) disposed on the left and right sides of the treatment tank block 10 and the treatment tank block 10 at intervals in the front-rear direction. A filter permeation tank 1 is formed between the front wall 12 and the partition 31 by the partitions 31 and 32 inserted therein, and the filter storage tank 2 between the partitions 31 and 32. Is formed, it is preferable to configure and modularize so that the filtration discharge tank (3) is formed between the partition 32 and the rear wall (13).

The bottom plate 11 is formed with a plurality of penetration holes 14 in the portion corresponding to the filtration penetrating tank (1).

The upper portion of the left wall 21 is provided with a water treatment inlet 23 at a portion corresponding to the filtration permeation tank 1, and the lower portion of the right wall 22 corresponds to the filtration discharge tank 3. The treated water outlet 24 is provided at the site.

A plurality of overflow holes 33 are formed at the upper end of the partition 31 to allow the treated water filtered in the filtration penetrating tank 1 to flow in and flow into the filtration storage tank 2.

The filtration storage tank (2) can be used as a variety of water by storing the filtration treatment itself, and connected to a separate underground reservoir (not shown) through a separate connection pipe (not shown) to filter the treated water underground reservoir It can be stored in (not shown) and used for various waters.

The filter medium 40 is provided inside the filtration penetrating tank (1). The filter medium 40 is preferably composed of a wood chip layer 41, a sand layer 42 and a gravel layer 43 from above.

Inside the filter reservoir (2) is provided with a filter bed (50) and a filter medium (60) stacked on top of the filter bed (50). The media support 50 is intended to support the media 60 and to form a storage space S between the bottom plate 11 and the support plate 51 and the support plate 51. It is comprised including the several support angle 52 supporting with respect to the bottom plate 11. As shown in FIG. A plurality of water passages 53 are formed in the support plate 51 so that the water to be treated can pass. The filter medium 60 is preferably composed of a wood chip layer 61, a sand layer 62 and a gravel layer 63 from above.

A filter medium 70 is provided inside the filtration discharge tank 3. The filter medium 70 is preferably composed of a wood chip layer 71, a sand layer 72 and a gravel layer 73 from above.

Non-point contaminant removal and water resource expansion of the three-stage integrated rainfall runoff treatment system suitable for various rainfall events according to the present embodiment will be described.

The treated water flowing into the filtration permeation tank 1 through the treated water inlet 23 formed in the left wall 21 from the rain pipe may be filtered by the media 40 stacked in the filtration permeation tank 1. After the treatment is penetrated into the ground through the penetration hole 14 formed in the bottom plate 11 to expand the groundwater.

Rainwater runoff with an initial rainfall of less than 5 mm has a high content of non-point pollutants above the standard, which is mostly the media 40 in the filtration permeation tank 1, that is, the wood chip layer 41, the sand layer 42, and the gravel layer 43. Is filtered through), and in this process, the treated water from which the non-point pollutant is removed is penetrated into the ground through the penetration hole 14 formed in the bottom plate 11.

Rainfall runoff water of 5 mm or more and 20 mm or less after the initial stage or rainfall runoff water of 20 mm or more of the rainfall after the initial stage, which has a low content of non-point pollutants below the standard value, causes the water level in the filtration tank 1 to rise rapidly. The partition 31 is flowed in and flows into the said filtration storage tank 2. At this time, since a plurality of overflow holes 33 are formed at the upper end of the partition 31, the water to be treated in the filtration permeation tank 1 flows through the overflow hole 33 and flows into the filter storage tank 2. .

The water to be treated introduced into the filter reservoir 2 is filtered by the filter medium 60 in the filter reservoir 2, that is, the wood chip layer 61, the sand layer 62, and the gravel layer 63. The treated water from which the non-point contaminant is removed is stored in the storage space S formed at the lower portion thereof through the plurality of water passages 53 formed in the support plate 51 of the media support 50.

In addition, the rainfall outflow water generated by continuous rainfall rapidly raises the water level in the filter reservoir 2, and flows into the filter discharge tank 3 by overflowing the partition 32.

The water to be treated introduced into the filtration discharge tank 3 is filtered by the filter medium 70 in the filtration discharge tank 3, that is, the wood chip layer 71, the sand layer 72, and the gravel layer 73. The treated water from which the non-point pollutants are completely removed in the process is discharged through the treated water outlet 24 formed in the right wall 22. The treated water discharged from the filtration discharge tank 3 is discharged to the discharge water system.

On the other hand, the three-stage integrated rainfall runoff treatment apparatus suitable for various rainfall events according to the present embodiment can be modularized by the treatment tank block 10 and the left and right side walls (21) 22 and the partitions (31) (32), etc. The construction period and the disclosure cost can be reduced by more than 10%, and the rapid construction technology that can reduce the amount of CO ₂ generated by construction by more than 20% can be provided.

8 to 13 show a second preferred embodiment of the three-stage integrated rainfall runoff treatment apparatus suitable for various rainfall events according to the present invention.

The three-stage integrated rainfall effluent treatment apparatus suitable for various rainfall events according to the present embodiment further includes a settling tank 4 upstream of the filtration permeation tank 1, and is disposed downstream of the filtration discharge tank 3. Since the crystal 5 is further provided, other configurations are the same as those of the first embodiment described above, the same reference numerals are assigned to the same parts, and detailed description thereof will be omitted.

The settling tank 4 is an upstream wall 81 spaced from the left wall 21 to an upstream side, and the front and rear walls 82 and 83 connecting the front and rear ends of the left wall 21 and the upstream wall 81. And it is preferable to modularize by the sedimentation tank block 80 formed integrally with the bottom wall 84, which connects the lower end of the left wall 21, the upstream wall 81 and the front and rear walls 82, 83.

At the upper end of the upstream wall 81, a treatment target water inlet 85 through which the treatment target water flows is formed.

The water collecting wells 5 are front and rear walls 92 and 93 that connect the downstream walls 91 spaced downstream from the right wall 22 and the front and rear ends of the right wall 22 and the downstream wall 91. ) And a bottom plate 94 connecting lower ends of the right wall 22, the downstream wall 91, and the front and rear walls 92, 93 are preferably modularized by the water collecting block 90 formed integrally. .

At the lower end of the downstream wall 91, a treated water outlet 95 for discharging the collected treated water is formed.

Non-point contaminant removal and water resource expansion of the three-stage integrated rainfall runoff treatment system suitable for various rainfall events according to the present embodiment will be described.

The treated water introduced into the sedimentation tank 4 through the treated water inlet 85 formed in the upstream wall 81 of the sedimentation tank block 80 from the rain pipe may be precipitated in the sedimentation tank 4, As the water level rises, the treated water, which is the upper water, flows through the treated water inlet 23 formed in the left wall 21 and flows into the filtration permeation tank 1.

The processing mechanism of the filtration permeation tank 1, the filtration storage tank 2, and the filtration discharge tank 3 is the same as in the above-described first embodiment, and thus a detailed description thereof will be omitted.

The treated water filtered by the filtration discharge tank 3 is collected in the sump 5 through the treated water outlet 24 formed in the right wall 22.

The treated water collected in the sump 5 is discharged to the discharge water system through the treated water discharge port 95 formed in the downstream wall 91 of the sump block 90.

In the above-described process, the settling tank 4 reduces the load of the filtration penetrating tank 1, and the sump well 5 serves as a buffer according to the amount of treated water discharged from the filtration discharge tank 3. This is to make the rainfall runoff more efficient.

The present invention has been described above with reference to the illustrated drawings as a preferred embodiment, but the present invention is not limited by the embodiments and drawings presented in the present specification, and those skilled in the art within the scope of the technical features of the present invention. Of course, various modifications may be made.

1: filtration penetration tank 2: filtration storage tank
3: filtration discharge tank 4: sedimentation tank
5: sump 10: treatment tank block
21: left wall 22: right wall
23, 85: treated water inlet 24: treated water outlet
31, 31: partition 40, 60, 70: media
50: media support 80: sedimentation tank block
90: sump block 95: treated water discharge port

Claims (4)

A filter permeation tank (1) provided at one side to filter the water to be introduced and penetrate into the ground;
A filtration storage tank (2) for filtering and storing the water to be treated flowing in the filtration permeation tank (1); And
Three-stage integrated rainfall outflow water treatment apparatus suitable for a variety of rainfall events comprising a filtration discharge tank (3) for filtering and discharging the treated water flowing into the filter storage tank (2).
A filter permeation tank (1) provided at one side to filter the water to be introduced and penetrate into the ground;
A filtration storage tank (2) for filtering and storing the water to be processed that flows in from the filtration permeation tank (1);
It includes a filtration discharge tank (3) for filtration and discharge the treated water flowing in by flowing in the filtration storage tank (2),
Further comprising a settling tank (4) upstream of the filtration penetrating tank (1) so that the treated water, which is the supernatant treated in the settling tank (4), flows into the filtration penetrating tank (1),
A three-stage integrated type suitable for various rainfall events is further provided with a collecting well 5 on the downstream side of the filtering discharge tank 3 so that the treated water discharged from the filtering discharge tank 3 is collected in the collecting well 5. Rainwater runoff treatment device.
The method according to claim 1 or 2,
The treatment tank block 10 having the bottom plate 11 and the front and rear barrier bodies 12 and 13, the left and right wall bodies 21 and 22 disposed on the left and right sides of the treatment tank block 10, and the treatment tank block ( 10) having partitions 31 and 32 inserted therein at intervals in the front and rear directions,
A filtration penetrating tank 1 is formed between the front wall 12 and the partition 21, and the filtration reservoir 2 is formed between the partitions 21 and 22, and the partition 22 and the rear The three-stage integrated rainfall runoff treatment apparatus suitable for various rainfall events, characterized in that the filtration discharge tank (3) is formed between the walls 13 and modularized.
The method of claim 2,
The treatment tank block 10 having the bottom plate 11 and the front and rear barrier bodies 12 and 13, the left and right wall bodies 21 and 22 disposed on the left and right sides of the treatment tank block 10, and the treatment tank block ( 10) having partitions 31 and 32 inserted therein at intervals in the front and rear directions,
A filtration penetrating tank 1 is formed between the front wall 12 and the partition 21, and the filtration reservoir 2 is formed between the partitions 21 and 22, and the partition 22 and the rear Between the walls 13 is modularized to form the filtration discharge tank (3),
The settling tank 4 is an upstream wall 81 spaced from the left wall 21 to an upstream side, and the front and rear walls 82 and 83 connecting the front and rear ends of the left wall 21 and the upstream wall 81. And a bottom plate 84 that connects the lower end of the left wall 21, the upstream wall 81, and the front and rear walls 82 and 83, is modularized by the sedimentation tank block 80 formed integrally.
The water collecting wells 5 are front and rear walls 92 and 93 that connect the downstream walls 91 spaced downstream from the right wall 22 and the front and rear ends of the right wall 22 and the downstream wall 91. ) And a bottom plate 94 connecting lower ends of the right wall 22, the downstream wall 91, and the front and rear walls 92 and 93 are modularized by a water collecting block 90 formed integrally. Three-stage integrated rainfall runoff treatment system suitable for various rainfall events.

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