KR20140100448A - facility decreasing non-point source pollution for Railway Facilities - Google Patents

Abstract

In the present invention, provided is a non-point source pollution reducing facility suitable for reducing non-point source pollution leakage by reflecting the characteristics of a railway facility, and the present invention relates to a non-point source pollution reducing facility for a railway facility which is helpful in the low carbon green growth of the railway industry through the safe removal of a non-point source pollutant specialized in the railway facility. In particular, the present invention facilitates the maintenance of the facility. To achieve the purpose described above, in the present invention, provided is a non-point source pollution reducing facility for a railway facility provided with an oil absorption screen comprising a concrete block which comprises a pre-treatment bath, a filtering bath and a filter media bath. The pre-treatment bath has an oil absorption screen for absorbing oil contained in a non-point pollutant. The oil absorption screen is disposed in the pre-treatment bath so as to adjust a flow speed of a rainfall effluent and absorb the oil contained in the non-point pollutant. The oil absorption screen comprises an oil absorption agent therein and further comprises a lid for exchanging the oil absorption agent.

Description

The facility has a non-point source pollution for railway facilities,

The present invention relates to a non-point pollution abatement facility for railway facilities, and more particularly to a non-point pollution abatement facility for removal of non-point pollution substances from an initial rainfall runoff occurring in a railway facility through a process such as adsorption and filtration.

The present invention also provides a non-point pollution abatement facility suitable for the reduction of non-point pollution outflow that reflects the characteristics of railway facilities. By providing a non-point pollution abatement facility suitable for railway facilities, And a non-point pollution abatement facility.

In particular, the present invention is intended to make maintenance of the facility more convenient.

Generally, pollutants originating in urban areas are classified into point source pollution (non-point source pollution) and non-point source pollution (non-point source pollution).

The point pollution source is a pollution source with a specific discharge route where the pollutant source such as sewage treatment plant, wastewater treatment plant, power plant, abandoned light, oil tank, oil well can be expressed as a single point. Pollution sources are pollutant emission sources that release pollutants in unspecified places such as urban areas, construction sites, parking lots, and roads.

These non-point pollution sources are scattered unlike the point pollution sources that are continuously generated at specific points, and the pollutant outflow and discharge paths are not clearly distinguished. Therefore, it is difficult to collect and the amount of pollutants to be discharged is greatly influenced by the weather conditions such as the amount of precipitation, Is diluted and diffuses and is discharged to a large area. Non-point pollutants also include soil, nutrients (suspended matter, nitrogen, phosphorus), bacteria, viruses, oil, heavy metals, organic matter, pesticides, and impurities.

In addition, the nonpoint source was not recognized as a source of contamination because the outflow of the pollutant was concentrated only at the time of rainfall and dispersed in a wide area. However, in the early rainfall runoff where the non - point pollutants on the surface are leaked at the beginning of rainfall, the outflow concentration of pollutants is high.

The outflow of non-point pollutants due to rainfall is very irregular and contains many types of recalcitrant pollutants. There is a large fluctuation in the amount of over-discharge and over time, and the concentration of contaminants at the beginning of rainfall is very high And so on.

Therefore, pollutants such as soil, nutrients, and heavy metals that leach out along with rainfall in nonpoint source pollution are difficult to collect and treat, and they flow into the effluent water system without any special treatment to deteriorate the water quality and destroy the water ecosystem. It is holding.

On the other hand, as the surface of the earth is packed with concrete or asphalt, the amount of water stored in the groundwater through the soil is gradually reduced. In the case of rainfall, the water rapidly flows when the rainfall is overflowed to the discharge water system. Throw away. Soil planted in parks or gardens is often washed down in storm water, hardened hard enough to not provide enough water for underground living creatures, and also prevents storms from being stored as groundwater. Techniques for treating non-point pollutants can solve these problems at the same time.

Currently, research on nonpoint pollution is concentrated on urban areas, roads, farmland and forests, and research and basic data on railway facilities are not available. Currently, research on the development of basic data for nonpoint pollution control and the development of nonpoint pollution abatement facilities are being carried out continuously in other land use areas excluding railway facilities. Especially, discharging water into the water system without managing non-point pollutants causes deterioration of the water quality of the water system and threatens the living health of the citizens. Therefore, it is necessary to manage the nonpoint pollutants generated in the railway facilities as well as the existing railway facilities.

In addition, during rainfall, rainwater immediately contains many non-point pollutants in the railway tracks while quickly moving along the railroad tracks around the railroad tracks.

As a technique for reducing the non-point pollutants recently disclosed, Korean Patent Registration No. 10-1177714 (registered on August 28, 2012, patentee Chosun University, Industry and Academic Cooperation) and Korea Registered Utility Model No. 20-0459753, And on April 16, 2012, utility model rights company, Ji Bison Blue Engineering Co., Ltd.). Conventionally, non-point pollution abatement facilities were stock type, infiltration type, vegetation type, device type and sewage treatment type. However, this is contrary to the present invention to remove contaminants contained in polluted water such as ordinary rainfall runoff. In particular, considering the characteristics of the railway area, which is disclosed in the present invention, it is necessary to remove the nonpoint pollutants contained in the rainwater runoff and to reduce the speed of the influent water, to consider maintenance, It is urgently necessary to dispose of the removed stormwater into groundwater.

KR 10-1177714 B1 (Aug. 28, 2012) KR 20-0459753 Y1 (April 16, 2012)

Accordingly, an object of the present invention is to provide a natural treatment facility capable of effectively reducing and eliminating non-point pollutants from initial rainfall runoffs generated from railway or railway facilities by means of adsorption, filtration, Facilities. In addition, the present invention intends to facilitate the maintenance of the abatement facility.

It is another object of the present invention to provide a nonpoint pollution abatement facility for a railway facility that efficiently removes nonpoint pollutants containing a large amount of oil during initial rainfall runoff and reduces pollutants discharged immediately to aquatic environments due to the characteristics of railway facilities will be.

It is another object of the present invention to provide a non-point pollution abatement facility for a railway facility that efficiently removes non-point pollutant substances through the step of adsorbing oil on a nonpoint pollutant containing oil flowing into an initial rainfall runoff.

Another object of the present invention is to reduce the flow rate of the water to be treated by introducing the non-point pollutant containing a large amount of oil into the water due to the characteristics of the railway (narrow and long and having the potential energy) And to provide a nonpoint pollution abatement facility for railway facilities that can efficiently remove nonpoint pollutants through step oil adsorption.

It is still another object of the present invention to provide a nonpoint pollution abatement facility of a railway facility which is easy to replace oil adsorbent according to the adsorption of oil contained in nonpoint pollutants and minimizes the loss of adsorbent and filter media due to excellent falling energy will be. That is, the present invention also considers the maintenance of the nonpoint pollution abatement facility.

Another object of the present invention is to provide a non-point pollution abatement facility of a railway facility which can effectively utilize the filter media by increasing the filtration length and widening the surface area of the filter material, I want to.

In order to achieve the above-mentioned object, the present invention provides a pretreatment apparatus comprising: a pretreatment tank for introducing rainwater runoff through an inflow hole into one side for pretreatment of nonpoint pollutants; A filtration tank for filtering nonpoint pollutants in the rainwater flowing through the pretreatment tank; A filter for discharging the rainwater flowing through the filtration tank through the stepwise filter media; Wherein the pretreatment tank has a oil adsorption screen for adsorbing oil contained in nonpoint pollutants and the oil adsorption screen controls the flow rate of the rainwater runoff and the oil contained in the non- Characterized in that the oil adsorption screen further comprises a lid for exchanging the oil adsorbent, wherein the oil adsorption screen further comprises a lid for exchanging the oil adsorbent, Provide facilities for non-point pollution abatement facilities.

The oil adsorption screen includes a connection fixture fixedly installed on the wall of the concrete block; A box-shaped mesh net fixed to the connection fixture by bolting; A oil adsorbent placed in the mesh net to adsorb oil; A cap for opening and closing the one end of the mesh net to replace the oil adsorbent; . A handle may be formed on the lid.

Wherein the oil adsorption screen is fixed to the inner wall of the pretreatment tank and the inflow water passage space through which the inflow water can pass downward is formed so that the plane of the oil adsorption screen is smaller than the inner plane of the pretreatment tank, The oil can be adsorbed while the flow rate is reduced by the inner wall of the pre-treatment tank and the oil adsorption screen while flowing into the space formed between the inflow water passage space and the oil adsorption screen.

Wherein the filtration tank is composed of a lower crushing layer and an upper mixed layer of wood chips, reeds, wool, sawdust, and rice husk that are stacked on the crushing layer; The stepwise filter media layer of the filter media is formed so as to be vertically stacked on the filter media having a small-sized pore size along the longitudinal direction of the concrete block, The stepwise filter media layer of the filter media may be formed to be laminated in the longitudinal direction of the concrete block by a filter material having a small size of pores and a large size of pores.

The present invention is characterized in that a pretreatment tank is provided at one side for introducing rainwater runoff through an inflow hole to pre-treat nonpoint pollutants. A filtration tank for filtering nonpoint pollutants in the rainwater flowing through the pretreatment tank; A filter for discharging the rainwater flowing through the filtration tank through the stepwise filter media; It is possible to reduce or effectively remove nonpoint pollutants from initial rainfall runoffs generated from railway or railway facilities by means of adsorption and filtration.

In addition, the present invention has the effect that pollutants are not a problem even if the non-point pollutants containing a large amount of oil are efficiently removed at the time of initial rainfall discharge due to the characteristics of the railway facilities, even if they are discharged immediately to the water system.

In the present invention, the pretreatment tank has a oil adsorption screen for adsorbing the oil contained in the non-point pollutants, and the oil adsorption screen controls the flow rate of the rain water runoff and adsorbs the oil contained in the non- It is possible to prevent the non-point pollutants containing oil flowing into the initial rainfall runoff from being removed from the non-point pollutants efficiently by reducing the flow rate of the treated water through the stepwise adsorption of oil, A non-point pollution abatement facility can be provided.

The oil adsorption screen of the present invention comprises: a connection fixture fixedly installed on a wall of a concrete block; A box-shaped mesh net fixed to the connection fixture by bolting; A oil adsorbent placed in the mesh net to adsorb oil; A cap for opening and closing the one end of the mesh net to replace the oil adsorbent; Therefore, it is easy to replace the oil adsorbent according to the oil adsorption contained in the non-point pollutants, and it is possible to minimize the loss of the oil adsorbent and the filter media due to the excellent drop energy.

Further, the stepwise filter media layer of the present invention is formed such that a filter medium layer having small pores and a large pore size layer are stacked or arranged vertically or back and forth along the longitudinal direction of the concrete block. Therefore, So that the surface area of the filter material can be widened so that the filtration efficiency can be increased and the usability of the filter material can be effectively increased.

Further, the present invention has an effect of facilitating the replacement of the oil adsorbent according to the oil adsorption contained in the non-point pollution material and minimizing the loss of the filter material due to the dropping energy of the excellent.

In summary, the non-point pollutant abatement facility of the present invention eliminates non-point pollutants including oil contained in rain water runoff in consideration of characteristics of a railway area not found in the prior art, , And the maintenance is easy.

1 to 5 show a first embodiment of a non-point pollution abatement facility of a railway facility according to the present invention,
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front sectional view of a non-point pollution abatement facility of a railway facility according to the present invention,
2 is a sectional view taken along the line AA in Fig. 1,
3 is a sectional view taken along line BB of Fig. 1,
4 is a sectional view taken along the line CC of Fig. 1,
FIG. 5 is a state sectional view showing a treatment process of rainwater runoff at a non-point pollution abatement facility of a railway facility according to the present invention;
6 to 7 show another embodiment of the oil adsorption screen according to the non-point pollution abatement facility of the railway facility according to the present invention,
FIG. 6 is an entire front sectional view showing another embodiment according to the oil absorption screen of the present invention,
7 is a sectional view taken along the line A'-A 'in Fig. 6,
FIG. 8 is an entire front sectional view showing another embodiment of the oil absorption screen according to the non-point pollution abatement facility of the railway facility according to the present invention,
FIG. 9 is a view showing another embodiment of the filtering material according to the non-point pollution abatement facility of the railway facility according to the present invention.

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

It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform.

1 to 5 are views showing a non-point pollution abatement facility of a railway facility according to the present invention.

As shown in FIGS. 1 to 5, the non-point pollution abatement facility of the railway facility according to the present embodiment includes a pretreatment tank 100 for pretreatment of nonpoint pollutants in rainwater runoff; A filtration tank 200 through which nonpoint pollutants in the rainfall runoff are filtered; And a concrete block (10) including a filter (300) through which a rainfall runoff is discharged while passing through the stepwise filter material layer (310A).

The non-point pollution abatement facility of the railway facility is embedded in a concrete block 10 in an excellent passage around a railway station, a railroad track, and a railway bridge pier. The excellent passage is installed at an interval of 20 m, and the concrete block 10 And the length is preferably about 10 m long corresponding to 1/2 of the gap of the above-described excellent passage.

The concrete block 10 includes partition walls 14 and 15 for dividing the bottom surface 11, the left and right side walls 12 and 13 and the pretreatment tank 100, the filtration tank 200 and the filter tank 300, .

The concrete block 10 is formed with an inflow hole 16 penetrating the upper end of the left sidewall 12 to allow the infiltration of rainwater runoff and an inflow hole penetrating the lower end of the right sidewall 13 to discharge rainwater runoff 17 are preferably formed.

A screen membrane 18 for allowing the rainwater effluent passing through the pretreatment tank 100 to pass through the filtration tank 200 is formed at the lower end of the partition wall 14 of the pretreatment tank 100 and the filtration tank 200, (19) is further formed.

The upper surface of the concrete block 10 is opened, and a steel grating 20 is installed on the upper surface thereof to prevent relatively large contaminants from flowing into the upper surface of the concrete block 10.

The pretreatment tank 100 is for pre-treating rainwater runoff through the inflow hole 16 to pre-treat non-point pollutants. The pretreatment tank 100 adsorbs oil contained in nonpoint pollutants of rainwater runoff The oil adsorption screen 110 is preferably formed to have the oil adsorption screen 110.

In addition, the oil adsorption screen 110 is preferably arranged as a multifunctional layer arranged to be shifted so as to adjust the flow rate of the rainwater runoff and to adsorb the oil contained in the non-point pollutants step by step.

The oil adsorption screen (110) has two or more surfaces, and one side is alternately fixed to the inner side wall of the pretreatment tank (100). The plane of the oil adsorption screen (110) A space is formed between the oil adsorption screens 110 so that the inflow water flows between the inflow water passage space and the oil adsorption screen 110 The oil is adsorbed while the flow velocity is reduced by the inner wall of the pretreatment tank 100 and the oil adsorption screen 110 while flowing into the formed space.

The oil adsorption screen (110) includes a connection fixture (111) fixed to a wall of the concrete block (10); A mesh network 112 in the form of a box bolted to the connection fixture 111; A oil adsorbent 113 installed in the mesh net 112 to adsorb oil; .

The connection fixture 111 may be fixed to the concrete block 10 at one side and bolted to the mesh network 112 to fix the mesh network 112.

In addition, the mesh net 112 is formed in a net-like net structure and is formed so that the oil adsorbent 113 is embedded therein.

In addition, the oil absorbent 113 is used for recovering oil in order to prevent an increase in damage due to oil contamination, and is preferably provided in a material such as polyurethane or urethane foam.

For reference, polyurethane is a generic name of a polymer compound bonded by a urethane bond formed by the combination of alcohol and isocyanic acid. A typical example is a spandex made of synthetic fibers. Urethane synthetic rubbers are also widely used. Urethane foam containing bubbles in polyurethane is used in bedding mattresses. Urethane foam is a foamed synthetic rubber which is used as a heat insulating material and a sound absorbing material. Bubbles are synthesized by using carbon dioxide gas generated when polyurethane rubber is produced.

The oil adsorbing screen according to the present invention is preferably replaced with an oil adsorbent placed in the mesh net at an appropriate time according to the degree of oil adhesion.

Accordingly, other embodiments of the present invention may be provided according to the replacement mode of the oil adsorption screen of the present invention.

6 to 7 show another embodiment of the oil adsorption screen according to the non-point pollution abatement facility of the railway facility according to the present invention. FIG. 6 is a front sectional view showing another embodiment of the oil absorption screen of the present invention, 7 is a sectional view taken along the line A'-A 'in Fig.

The oil adsorption screen (120) according to the non-point pollution abatement facility of the railway facility of the present invention comprises: a connection fixture (121) fixedly installed on the wall of the concrete block (10); A box-shaped mesh net 122 bolted to the connection fixture 121; An oil adsorbent 123 installed in the mesh net 122 to adsorb oil; A cap 124 formed to be opened and closed at one side of an upper end of the mesh net 122 and having a handle for replacing the oil adsorbent 123; It is also possible to configure it further.

FIG. 8 is an entire front sectional view showing another embodiment of the oil absorption screen according to the non-point pollution abatement facility of the railway facility according to the present invention.

The oil adsorption screen 130 according to the non-point pollution abatement facility of the railway facility of the present invention comprises a connection fixture 131 fixedly installed on the wall of the concrete block 10; A box-shaped mesh net 132 slidably coupled to an upper end of the connection fixture 131; A oil adsorbent 133 installed in the mesh net 132 to adsorb oil; And may be configured to be separated to the outside for replacement of the oil adsorbent 133 in which the mesh net 132 is installed in the connection fixture 131. In this case, the separated structure does not limit its shape, and it suffices to separate the mesh net to replace the oil adsorbent.

The filtration tank 200 is formed of a lower crushing layer 210, and the upper part of the crushing layer 210 It is preferable that the mixed layer 220 is formed so as to be mixed with wood chip, reed, scrubber, sawdust and rice husk.

Preferably, the filtration tank 200 may be changed depending on characteristics of the installation area.

The filter 300 is configured such that the rainwater flowing through the filtration tank 200 and overflows is discharged through the stepwise filter layer 310A.

The stepwise filter media layer 310A of the filter 300 is arranged in the upper and lower stages with the filter media 312 having a large size of pores in the filter media 311 having small pores along the longitudinal direction of the concrete block 10 . This is formed so as to increase the surface area of the filter material so as to increase the filtration rate of the rainwater runoff.

Also, the filter 300 may provide other embodiments according to the lamination type.

FIG. 9 is a view showing another embodiment of the filtering material according to the non-point pollution abatement facility of the railway facility according to the present invention.

The stepwise filter media layer 320A of the filter material 300 is formed in the longitudinal direction of the concrete block 10 by the filter material 321 having a small size of pores and the filter material 322 having a large size of pores, .

In the non-point pollution abatement facility of the railway facility according to this embodiment, the rainfall runoff flowing from the railway and the Qingdao bridge during the rainfall flows through the inflow hole 16 and passes through the pretreatment tank 100, The oil as the non-point pollutant can be separated by the oil adsorption screen 110. At this time, the rainwater runoff flows through the oil adsorption screen 110 installed at the upper and lower stages and the flow velocity is somewhat reduced so that the oil adsorption can be smoothly performed.

The rainwater flowing through the pretreatment passes through the screen membrane 18 and the flow hole 19 formed at the bottom of the partition wall of the concrete block 10 and flows into the filtration tank 200. The filtration tank 200 The rainwater effluent is filtered through non-point pollutants contained in the rainwater runoff while passing through the mixed layer 220 mixed with the crushed stone layer 210, wood chips and sawdust.

Finally, the rainwater flowing through the filtration tank 200 flows into the filter 300, which is the next step, over the partition wall 17, and the inflowed rainwater flows out of the filter medium 310 having a small- And the filter medium 320 having a large size of voids are passed through the filter media 310A which are stacked one on another and the non-point pollutants and heavy metals are removed. Finally, the filtered rainwater is discharged through the outflow holes (17). ≪ / RTI >

The mixed layer 220 of the wood chip and the sawdust is excellent in the adsorption performance of contaminants and has a malodor removing effect.

The non-point pollution abatement facility of the railway facility according to this embodiment is an eco-friendly treatment facility which can reduce and remove nonpoint pollutants from initial rainfall runoffs generated from railway stations, railways and railroad bridge piers by processes such as adsorption and filtration, It is possible to improve the storage, evaporation and landscape of water in the railway facilities. In order to facilitate the maintenance and monitoring plan, the pre-treatment facility is installed in the inflow section and the landfill is installed in the outflow section. So that it can be precipitated.

In addition, stable non-point pollution can be expected to be eliminated through the installation of non-point pollution abatement facilities reflecting characteristics of railway roadbed structures, materials and railway facilities suitable for non-point pollution spill abatement. . By managing rainfall runoff occurring during rainfall through the nonpoint pollution abatement facility, it is possible to secure landscaping and green space space by improving the water quality of water system, preventing flood and developing environment friendly nonpoint pollution abatement facilities.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents.

10: Concrete block 20: Steel grating
100: Pretreatment tank 110: Oil adsorption screen
200: Filtration tank 210: Crushed layer
220: mixed layer 300:

Claims (7)

A pretreatment tank (100) for introducing rainwater effluent through the inflow hole (16) to pre-treat non-point pollutants;
A filtration tank 200 for filtering non-point pollutants of rainwater flowing through the pretreatment tank 100;
A filter 300 for discharging the rainwater flowing through the filtration tank 200 through the stepwise filter layer 310A; And a concrete block (10)
The pretreatment tank (100) has a oil adsorption screen (110) for adsorbing oil contained in nonpoint pollutants,
The oil adsorption screen (110) is installed in the pretreatment tank (100) to regulate the flow rate of the rainwater runoff and to adsorb oil contained in nonpoint pollutants,
The oil adsorption screen 130 includes an oil adsorbent 133 therein,
The oil adsorption screen (130) further comprises a lid (124) for exchanging the oil adsorbent (123)
Nonpoint Pollution Reduction Facility of Railway Facilities with Oil Adsorption Screen.
The method according to claim 1,
The oil adsorption screen (120) includes a connection fixture (121) fixed to a wall of a concrete block;
A box-shaped mesh net 122 bolted to the connection fixture 121;
An oil adsorbent 123 installed in the mesh net 122 to adsorb oil;
A lid 124 formed to be opened and closed at one side of the upper end of the mesh net 122 to replace the oil adsorbent 123; Characterized by comprising
Nonpoint Pollution Reduction Facility of Railway Facilities with Oil Adsorption Screen.
3. The method of claim 2,
The lid (124) is provided with a handle
Nonpoint Pollution Reduction Facility of Railway Facilities with Oil Adsorption Screen.
3. The method of claim 2,
The oil adsorption screen (110) includes at least two oil adsorption screens (110), which are fixed to the inner wall of the pretreatment tank (100)
The planar area of the oil adsorption screen 110 is smaller than the inner planar area of the pretreatment tank 100, so that an inflow water passage space through which inflow water can pass downward is formed,
As the inflow water flows into the space formed between the inflow water passage space and the oil adsorption screen 110, the flow velocity is reduced by the inner wall of the pre-treatment vessel 100 and the oil adsorption screen 110, Featured
Nonpoint Pollution Reduction Facility of Railway Facilities with Oil Adsorption Screen.
The method according to claim 1,
The filtration tank 200 includes a lower crushing layer 210,
And a mixture layer 220 on the top of the crushed stone layer 210 to be mixed with wood chip, reed, wool, sawdust, and rice husk.
Nonpoint Pollution Reduction Facility of Railway Facilities with Oil Adsorption Screen.
The method according to claim 1,
Wherein the stepwise filter media layer is formed so as to be laminated on the filter media having a small-sized pore size along the longitudinal direction of the concrete block with a filter material having a large-
Nonpoint Pollution Reduction Facility of Railway Facilities with Oil Adsorption Screen.
The method according to claim 1,
Wherein the stepwise filter media layer is formed so as to be laminated back and forth with a filter material having a large size of pores in a filter material having a small pore size along the longitudinal direction of the concrete block
Nonpoint Pollution Reduction Facility of Railway Facilities with Oil Adsorption Screen.

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