KR101173780B1 - Multistage non-point pollution decrease facilities by using A upward flow type filter and A downward flow type filter - Google Patents

Abstract

The present invention relates to a non-point pollution reduction facility for reducing contaminants mixed in rainwater. By applying all the advantages of the filtration method to complement the disadvantages of each other's filtration method shows an excellent filtration effect compared to the conventional similar devices.
In case of rainfall, various kinds of pollutants in rainwater are filtered in the order of primary filtration tank, secondary filtration tank, and tertiary filtration tank. If it is put into the primary filtration tank or the tertiary filtration tank, it is possible to selectively replace only the filtration tank in which the pore blockage occurs depending on the type of the media.
In addition, the facility of the present invention is to provide a stagnant water to the bottom surface of the main body to prevent the stagnant water stagnated in the main body after the end of the rainfall so that a small amount of excellent stagnant water introduced into the main body can be discharged by a small amount in the future It is effective in preventing secondary pollution caused by flies or pests caused by stagnant water.

Description

Multistage non-point pollution decrease facilities by using A upward flow type filter and A downward flow type filter}

The present invention relates to a multi-stage non-point pollution reduction facility using an upflow filtration method and a downflow filtration method for reducing contaminants mixed in rainwater, and according to the present invention, a stepwise upstream and downflow filtration is provided in a filtration tank. The present invention relates to a technology that can significantly reduce the water pollution due to rainwater by sequentially separating various kinds of pollutants contained in rainwater and discharging them into rivers or rivers.

As urban development and commercialization progress, land development is accelerated and the area of impermeable layers such as land, roads, and parking lots increases, and when rainfall starts, various unspecified pollutants occur in unspecified areas. Due to this, the impact on the water quality of rivers and lakes increases, and contaminants such as soil, suspended solids, nitrogen, phosphorus, nutrients, and high concentrations of heavy metals, which are discharged along with rainfall, are difficult to collect and treat. Inflows into rivers contaminate water quality, causing fish to colonize and destroy benthic habitats, leading to disturbances in aquatic systems. In addition, an increase in impermeable layers due to land development increases the amount of rainwater that is not absorbed or evaporated into the soil during rainfall, increasing the risk of flooding and reducing groundwater replenishment, which in turn causes dryness of rivers. It can also be a factor. Point sources are pollutants from wastewater discharge facilities such as factories and workplaces in accordance with the Law on Water Quality and Aquatic Ecological Conservation. Non-point source is difficult to collect and it is difficult to design and maintain the treatment facility because the amount and emission are highly dependent on the weather conditions such as precipitation. Generally, the methods used for the removal of nonpoint source are the storage type, the infiltration type, the vegetation type, the device type, etc. The storage type is the most common such as the reservoir and the pond, and the particulate contaminants in the rainwater are removed by precipitation. It is effective in removing contaminants attached to particulate matter because it removes particulate contaminants in rainwater by sedimentation, but it is already developed because there are limitations in removing dissolved substances and relatively large land is needed. It is economically difficult to apply to these areas and also causes health problems because flies or pests are generated due to deterioration of stored water quality. The permeation type includes permeate trench, permeation reservoir, pore packing, etc., and it is a method to reduce rainwater runoff by increasing rainfall permeation capacity of rainfall runoff, and to remove pollutants during underground infiltration process, but continuous inflow of soil, suspended matter and pollutants Due to the air gap clogging phenomenon is difficult to maintain. The vegetation type is mainly used as a pretreatment method, such as a vegetation channel and vegetation filtration college, there is a limit that requires more than a certain size of land and ideal environmental conditions to maintain the vegetation. The device type is a facility installed in a conduit, which is mainly applicable to urban areas where rainwater flows out through conduits, and is classified into a vortex type, a filtration type, a screen type, etc., with the main purpose of removing floating solids. It can be applied to the city or small developer area by complementing the problems such as the storage type, the penetration type, and the vegetation type, and can be easily installed even on a small land area, and the cleaning and maintenance are easy, so the non-point source has high treatment efficiency. It is an equipment-type facility that requires a cleanup facility.

The present invention is to fill the various types of contaminants contained in the rainwater during rainfall by mixing a variety of media in the filtration tank of the filter-type facility in the device-type facility, filling the filter medium in the cartridge or layering various media In order to reduce the pollutants by selecting one of the upflow filtration method and the downflow filtration method, it is possible to reduce the pollutants by increasing the replacement cycle of the media and to maintain it after a certain time. There is a problem in that the entire filter medium is replaced even when the air gap clogging occurs.

In order to solve this problem, by dividing two or more filtration tanks, various kinds of contaminants are brought into contact with the filter step by step through the upflow filtration step and the downflow filtration step over time to improve the efficiency of the non-point pollution reduction facility and to maintain it. In this regard, the purpose of the present invention is to provide a non-point pollution reduction facility that distinguishes and replaces only media having pore blockage caused by specific contaminants by separately inputting media of upflow filtration and downflow filtration.

In order to achieve the object as described above, the multistage non-point pollution reduction facility using the upflow filtration method and the downflow filtration method of the present invention is installed in the ground and the main body is installed with the discharge inlet and the discharge water discharged from the rainwater to one side. In the rainwater flowing from the inlet of the main body, a sedimentation tank that precipitates heavy contaminants and repels oil or floating substances, a buoyancy bump vertically installed to protrude from the bottom of the main body, and is vertically installed inside the main body, Partition wall formed with rainwater distribution channel, the primary filtration tank spaced apart from the bottom and installed between the partition wall and the partition wall to filter rainwater flowing from the bottom of the rainwater distribution channel to the upper part in the sedimentation tank, spaced apart from the bottom and between the partition wall and the partition wall Installed in the primary filtration tank the rainwater flowing from the upper to the lower A secondary filtration tank for filtration, which is spaced apart from the bottom and installed between the partition wall and the partition wall comprises a facility including a tertiary filtration tank for filtering the rainwater introduced from the bottom of the rainwater flow channel to the top in the secondary filtration tank.

In addition, the present invention in the above-described configuration to prevent clogging due to the contaminants in the congested water flowing into the stagnant water to provide the stagnant water and the discharged stagnant water to discharge a small amount of excellent stagnant water introduced to the bottom surface of the main body. It is characterized by forming a multi-stage non-point pollution reduction facility using an upflow filtration method and a downflow filtration method including a stabilizing water distribution protective cover.

According to the multi-stage non-point pollution reduction facility using the upflow filtration method and the downflow filtration method according to the present invention as described above, the primary filtration tank, the tertiary filtration tank, and the downflow filtration which can perform the upflow filtration to the partition wall inside the main body. The secondary filtration tank can be processed step by step with a certain time difference, while applying both the advantages of the upflow filtration method and the advantages of the downflow filtration method. Effect.

In case of rainfall, various kinds of pollutants in rainwater are filtered in the order of primary filtration tank, secondary filtration tank, and tertiary filtration tank. In this way, if the filter medium is selected according to the characteristics of the region and put into the primary, secondary, and tertiary filtration tanks, only the filtration tanks with pore blockage can be selectively replaced according to the type of the filter media. Maintenance after installation is convenient.

In addition, the facility of the present invention is to provide a stagnant water to the bottom surface of the main body to prevent the stagnant water stagnated in the main body after the end of the rainfall so that a small amount of excellent stagnant water introduced into the main body can be discharged by a small amount in the future It is effective in preventing secondary pollution caused by flies or pests caused by stagnant water.

1 is a plan view of a multi-stage non-point pollution reduction facility using an upflow filtration method and a downflow filtration method according to an embodiment of the present invention.
2 and 3 are cross-sectional views of a multi-stage non-point pollution reduction facility using an upflow filtration method and a downflow filtration method according to an embodiment of the present invention.
Figure 4 is a partial cutaway perspective view of a multi-stage non-point pollution reduction facility using an upflow filtration method and a downflow filtration method according to an embodiment of the present invention.
Figure 5 is a cross-sectional view of the stagnant water installed on the inner bottom surface of the multi-stage non-point pollution reduction facility using the upflow filtration method and the downflow filtration method according to an embodiment of the present invention.
Figure 6 is a layout diagram of a facility showing the flow of the initial excellent treatment of the multi-stage non-point pollution reduction facility using the upflow filtration method and the downflow filtration method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention. However, in describing the embodiments, the matters well known in the art to which the present invention pertains and are not directly related to the present invention will be omitted or compressed for the sake of brevity.

1 is a plan view of a multi-stage non-point pollution reduction facility 100 using an upflow filtration method and a downflow filtration method according to an embodiment of the present invention, Figures 2 and 3 are the upflow filtration method according to an embodiment of the present invention. And cross-sectional view of a multi-stage non-point pollution reduction facility 100 using a downflow filtration method. As shown in the figure, various types of pollutants contained in rainwater are introduced into rainwater inlet pipe 110 on one side of the main body when rainfall occurs in the site where the non-point pollution reduction facility 100 is installed. In step S10, the initial rainwater is introduced into 100). The initial rainwater that flowed into the rainwater inlet pipe 110 precipitates heavy pollutants such as earth and sand from various types of pollutants in roads, parking lots, and roofs within the site. Light contaminants are floated and treated, which is the settling and flotation separation step (S20) in the sedimentation tank (120). In addition, by placing a vertically protruding floating prevention jaw 130 on the bottom surface of the sedimentation tank 120, the contaminants of the inflow water are prevented from re-emergence of contaminants that have already settled inside the sedimentation tank 120 due to the initial excellent water flowing in irregularly. In order to prevent the factors that can increase the concentration in advance to significantly reduce the pore blockage of the filter medium of the primary filtration tank is a re-injury prevention step such as soil or contaminants already processed (S30). Between the immersion tank 120 and the primary filtration tank 140, there is a partition 210 having an open bottom, where the initial rainwater treated in the immersion tank 120 moves upward from the lower portion of the primary filtration tank 140. After passing through this and treated in the sedimentation tank 120, the initial excellent filtration is filtered and adsorbed using the media. In this way, the filtration method in the primary filtration tank 140 may be referred to as an upflow filtration step (S40). have. In addition, the initial excellent water treated in the primary filtration tank 140 is moved to the secondary filtration tank 160, and there is also a partition wall 220 having an open upper portion between the primary filtration tank 140 and the secondary filtration tank 160. Here, the initial rainwater treated in the primary filtration tank 140 passes from the upper portion of the secondary filtration tank 160 to the lower portion, passes through the filter medium, and thus the initial rainwater treated in the primary filtration tank 140 is used as the filter medium. The filtration method in the secondary filtration tank 160 as described above may be referred to as a downflow filtration step (S50). And the initial excellent water treated in the secondary filtration tank 160 is moved to the tertiary filtration tank 180, which is also between the secondary filtration tank 160 and the tertiary filtration tank 180 there is a partition 230 having an open bottom. Here, the initial rainwater treated in the secondary filtration tank 160 moves from the lower portion of the tertiary filtration tank 180 to the upper part, passes through the media, and thus the initial rainwater treated in the secondary filtration tank 160 is used as the media. Filtration and adsorption by the filtration method in the tertiary filtration tank 180 can be referred to as an upflow filtration step (S60). As such, it is subdivided into a primary filtration tank 140, a secondary filtration tank 160, and a tertiary filtration tank 180 rather than a single filtration tank using a single filtration method as compared to the conventional homogeneous apparatus. The processing efficiency is high by processing time step by step. The initial excellent water treated in the tertiary filtration tank 180 is discharged to the discharge pipe 200 on one side of the main body, and this step is the final treated water discharge step (S70) of the initial excellent water.

5 is a cross-sectional view of stagnant water installed on the inner bottom surface of the multi-stage nonpoint pollution reduction facility using the upflow filtration method and the downflow filtration method according to an embodiment of the present invention. As shown in the figure, various types of contaminants contained in rainwater during rain occurrence in the site where the non-point pollution reduction facility 100 is installed are introduced into the rainwater inlet pipe 110 on one side of the main body, which is an upward flow filtration of FIG. The layout diagram of the facility showing the flow of the initial excellent treatment of the multi-stage non-point pollution abatement facility using the method and the downflow filtration method shows that the initial treated water discharge step (S70) is performed from the step of introducing the initial rainfall (S10). It can be seen that it removes contaminants. However, rainwater congestion in the non-point pollution abatement facility 100 becomes stagnant, and secondary contaminants such as flies or pests are generated in the non-point pollution abatement facility 100 due to such congestion water. Install the water supply 250 on the bottom surface of the facility 100 to discharge the fine water in the non-point pollution reduction facility 100 little by little until the next rainfall. In addition, the water supply distribution 250 is protected by using the water supply distribution protection cover 240 so that the water supply distribution 250 due to the collected pollutants in the non-point pollution reduction facility 100 is not blocked. Until it occurs, it is not a problem to discharge the excellent stagnant water in the non-point pollution reduction facility (100).

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings. However, since the above-described embodiments have only been described by way of example, the present invention is limited only to the above-described embodiments of the present invention. It is not to be understood that the scope of the invention should be understood by the claims and equivalent concepts described below.

100. Nonpoint Pollution Reduction Facilities
110. Inlet pipe
120. Tidebirds
130. Injury prevention jaw
140. Primary filtration tank
150, 170, 190. Filters
160. Secondary filtration tank
180. 3rd filtration tank
200. Discharge pipe
210, 220, 230. bulkhead
240. Hung Water Supply Protection Cover
250. Serving water
260. Inspection Manhole

Claims (2)

A main body installed in the ground and installed with an outlet for rainwater flowing into one side and a discharge hole for discharge of treated water;
A sedimentation tank that precipitates heavy pollutants such as earth and sand from the rainwater introduced from the main body inlet and floats the pollutants having a low specific gravity such as oil or floating materials;
Injury prevention jaw vertically installed to protrude from the bottom surface of the main body;
A partition wall vertically installed in the main body and having an excellent distribution path at an upper end or a lower end thereof;
Primary water is separated from the bottom surface of the main body and installed between the partition wall and the partition wall to filter the initial excellent water by filtering and adsorption through the filled media while moving from the bottom to the top through the excellent distribution channel Filtration tank;
2, which is separated from the bottom of the main body and is installed between the partition walls and the partition walls, and the initial excellent water treated in the primary filtration tank is filtered and adsorbed through the filled media while moving from the top to the bottom through the excellent distribution channel to filter the initial excellent water. Tea filtration tank;
It is spaced apart from the bottom of the main body and installed between the partition wall and the discharge pipe and the initial excellent water treated in the secondary filtration tank is filtered and adsorbed through the filled media while moving from the bottom to the top through the excellent distribution channel to filter the initial excellent water Tertiary filtration tank; Multistage non-point pollution reduction facility using an upflow filtration method and a downflow filtration method comprising a. According to claim 1, Providing stagnant water for discharging small amount of rainwater from the bottom of the main body;
A stagnant water distribution providing cover to prevent clogging due to contaminants in the excellent stagnant water into which the stagnant water distribution is introduced; Multistage non-point pollution reduction facility using an upflow filtration method and a downflow filtration method comprising a.

Images