KR101942685B1 - Facilities for reducing non-point pollution - Google Patents

Abstract

The present invention relates to facilities for reducing non-pint pollution, which can increase cleaning efficiency by performing cleaning with an air bubble, a convection current phenomenon, and friction between filters. According to the present invention, the facilities for reducing non-pint pollution comprise a preprocessing tank, a filter tank, a treatment water tank, and a control unit.

Description

[0002] Facilities for reducing non-point pollution [0003]

The present invention relates to a non-point pollution abatement facility, and more specifically, it relates not only to backwashing using both high-pressure air and rotary high-pressure water, but also to use a multi- The present invention relates to a non-point pollution abatement facility capable of enhancing cleaning efficiency by cleaning by bubbles, convection, and friction between filters.

In general, water pollution sources are classified into point pollution sources, nonpoint pollution sources, and other water pollution sources.

The above-mentioned point pollution source is defined as a pollutant emission source at a certain point, such as a factory, a sewage treatment plant, and an animal husbandry facility.

Even if the pollution concentration is high, the above-mentioned point pollution source is easy to collect due to the clear path of the pollutant, and it is possible to forecast the amount of pollution during the year due to the seasonal influence, Do.

The above-mentioned nonpoint source is defined as a source of emission of unspecified water pollutants such as soil, bacteria, viruses, pesticides, fertilizers, manure, oil, heavy metals, tire powder, etc. in unspecified places such as cities, roads, agricultural land, do.

Since the above-mentioned nonpoint pollution source is largely influenced by meteorological conditions such as the amount of generated and discharged amount of rainfall, and the pollutants that are introduced at once by rainwater in a rainy season are difficult to specify the sewage treatment apparatus and are difficult to maintain, rainwater, Contaminants such as soil, suspended matter, oil, nutrients, heavy metals, etc., which are infiltrated into the sea, pollute the water quality, cause fish to be killed or destruction of habitat of benthic organisms, disturbing the aquatic ecosystem.

In addition, the increase in the amount of rainwater discharged into rivers without absorbing or evaporating rainwater into the soil due to the increase in the unpolluted pavement surface due to economic development and urbanization increases the risk of flood, decreases the groundwater content, In the middle of the season, there is also a tendency for streamflow to occur.

Conventional methods for reducing non-point pollution include cleaning the roads periodically with a vacuum-suction cleaning vehicle, reducing the impervious layer area by creating roadside trees and vegetation zones around the roads, constructing parking lots using porous packaging materials, It is necessary to install a crushing layer storage facility and to suppress overspray of fertilizer, pesticide and pesticide for the maintenance of the landscape facilities of the park, and to install a concave natural vegetation facility (reservoir) And creating a vegetation zone in various parts of the city.

However, the above-mentioned conventional methods are not a comprehensive systematic system, but a local and an ad hoc method.

For reference, polymer filters and nonwoven fabric filters are used. These filters are not clogged by viscous sludge, but also oil substances are floated efficiently, which leads to sedimentation of solids and floating of oil components. A technique for a non-point pollution abatement facility for removing pollutants is disclosed in Korean Patent No. 10-1130579 entitled " Non-point pollutant removal apparatus employing a polymer filter and a nonwoven fabric filter ".

However, the conventional non-point pollution abatement facility as described above has a problem that the cleaning efficiency is lowered because the flow direction of the washing water is perpendicular to the gravity direction and the polymer filter is formed of a cylindrical spiral shape .

Korean Patent No. 10-1130579 Korean Patent Publication No. 10-2016-0077327 Korean Patent Publication No. 10-2016-0107382

It is an object of the present invention to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide a multi-winding type polymer filter which not only performs backwashing using high pressure air and rotary high- The present invention is to provide a non-point pollution abatement facility capable of enhancing cleaning efficiency by using air bubbles, convection, and friction between filters to perform cleaning.

According to an aspect of the present invention, there is provided a device for pretreating a contaminated water from outside, comprising: a pretreatment tank separated from the pretreatment tank and a partition wall, The filtration tank is separated by the filtration tank and the partition wall, and the filtered water flowing from the filtration tank is stored in the filtration tank, And a control unit for controlling the stagnant water drain pump of the pre-treatment tank and the backwash pump of the treatment water tank, wherein the pre-treatment tank includes a manhole provided on the upper surface thereof, The pretreatment tank inlet installed at the upper part and the lower part installed at the lower part A stagnant water drain pump having one end connected to the stagnant water drain pump and the other end connected to the outside, a stagnant water drain pipe connected between the stagnant water drain pump and the stagnant water drain pump, The filtration tank includes a manhole installed on the upper surface thereof, a filtration tank inlet provided at a lower portion of the partition for separating the pretreatment vessel from the pretreatment vessel, a polymer filter portion provided at a lower portion of the filtration tank, A rotary nozzle connected to the backwash water pipe; a micro-fiber filter unit installed at an upper portion of the micro-fiber filter unit; And a backwash air pipe installed at an upper portion of the filter unit for introducing high-pressure air from an external air compressor The treatment water tank includes a manhole provided on an upper surface thereof, a treatment water tank inlet provided on an upper portion of a partition wall for separating the filtration tank from the treatment tank, and a reverse water washing pump for supplying high pressure water to the reverse water pipe And a drain port for draining the polluted water to the outside.

In the apparatus of the present invention, the upper end of the perforated screen is lower than the ceiling of the pretreatment tank 10 so that the contaminated water can be overflowed and bypassed when the perforated screen is clogged with floating matters, As shown in FIG.

In the apparatus of the present invention, the microfibre filter portion is formed of a three-dimensional multi-layer structure bent in a W-shape using 100% pure fibers of a needle punching nonwoven fabric so as to maximize the filtration area.

In the structure of the apparatus of the present invention, it is preferable to use two types of the microfibre filter section, 5 mu m and 100 mu m.

In the apparatus of the present invention, when the high-pressure air is supplied through the backwash air pipe, the microfibre filter unit is preferably cleaned by friction between air bubbles, convection, and filters.

As a means for achieving the above object, the method of the present invention comprises the steps of discharging the stagnant water in the pretreatment tank to the outside by operating the stagnant water drain pump of the pretreatment tank, stopping the operation of the stagnant water drain pump of the pretreatment tank, A step of washing the microfibre filter unit and the polymer filter unit with air bubbles by operating the compressor, stopping the operation of the air compressor, and operating the stagnant water drain pump of the pretreatment tank to clean the microfibre filter unit and the polymer filter unit Washing the microfibre filter unit and the polymer filter unit with rotary high-pressure water by stopping the operation of the stagnant water drain pump of the pretreatment tank and operating the reverse water wash pump of the treatment water tank; And by operating the stagnant water drain pump of the pre-treatment tank, Three parts of croissant fiber filter portion and the filter, and the polymer preferably comprising the I comprising draining the waste water to the outside.

The present invention has an effect of improving washing efficiency by using not only backwash using high-pressure air and high-pressure water but also using a multi-winding polymer filter while making the flow of wash water become gravity direction.

1 is a perspective view of a nonpoint pollution abatement facility according to an embodiment of the present invention.
2 is a plan sectional view of a nonpoint pollution abatement facility according to an embodiment of the present invention.
3 is a longitudinal sectional view of a nonpoint pollution abatement facility according to an embodiment of the present invention.
4 is a perspective view of a multiwound type polymer filter of a nonpoint pollution abatement facility according to an embodiment of the present invention.
5 is a front view of a multiwound type polymer filter of a nonpoint pollution abatement facility according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

Other objects, features, and operational advantages, including the purpose, operation, and effect of the present invention will become more apparent from the description of the preferred embodiments.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory only and are not to be construed as limiting the scope of the invention as disclosed in the accompanying claims. It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and similarities, many of which are within the scope of the present invention.

Also, the expression of a term or word used in the description and claims of the present invention is defined based on the principle that the inventor can properly define the concept of the term in order to explain its own invention in the best way, And should not be construed to be limited to the ordinary or dictionary meanings and should be construed in a meaning and a concept consistent with the technical idea of the present invention. As an example, the singular " include " includes plural representations unless the context clearly dictates otherwise, and the expressions relating to directions are to be set based on the position represented on the drawing for convenience of explanation.

FIG. 1 is a perspective view of a nonpoint pollution abatement facility according to an embodiment of the present invention. FIG. 2 is a plan view of a nonpoint pollution abatement facility according to an embodiment of the present invention. Of the present invention.

As shown in FIGS. 1 to 3, the non-point pollution abatement facility according to an embodiment of the present invention includes a pretreatment tank 10 for pretreatment of contaminated water from the outside, When the contaminated water is introduced from the pretreatment tank 10 separated by the partition wall 10 and the partition wall 26, the foreign matter can be filtered while allowing the flow of water to be opposite to the gravity direction, A treatment water tank 30 separated from the filtration tank 20 and the partition wall 34 for storing filtered water flowing from the filtration tank 20 and used as wash water, (Not shown) for controlling the stagnant water drainage pump 14 of the treatment water tank 10 and the backwash pump 33 of the treatment water tank 30 described above.

The pretreatment tank 10 is provided with a manhole 11 provided on the upper surface thereof, a pretreatment tank inlet 12 provided at an upper part to allow contaminated water to be introduced from the outside, and a congestion water drain pump 14, a stagnant water discharge pipe 15 having one end connected to the stagnant water discharge pump 14 and the other end connected to the outside, a stagnant water discharge pipe 12 connected to the stagnant water discharge pump 14, And a perforated screen 13 disposed between the perforated screen 13.

The upper end of the perforation screen 13 is lower than the ceiling of the pretreatment tank 10 so that the contaminated water can be overflowed and bypassed when the perforated screen 13 is clogged with floating matters, And a space is formed between the ceiling of the bath (10).

The filtration tank 20 is provided with a manhole 21 provided on the upper surface thereof and a filtration tank inlet 28 provided below the partition wall 27 for separating the pretreatment tank 10 from the filtration tank inlet 28, A microfilter filter unit 23 provided on the upper portion of the polymer filter unit 22 and a microfilter filter unit 23 provided on the upper side of the microfilter filter unit 23, A rotary nozzle 25 connected to the reverse water pipe 24 and an air compressor (not shown) provided at an upper portion of the microfiber filter unit 23, And a backwash air pipe 26 for introducing the high-pressure air from the high-pressure air pipe (not shown).

The microfibre filter unit 23 has a three-dimensional multi-layer structure bent in a W-shape using 100% pure fibers of a needle punching nonwoven fabric, thereby maximizing the filtration area.

The microfibre filter unit 23 is made of a cartridge type and is easy to be cleaned and replaced, thereby facilitating maintenance.

The thickness of the microfibre filter portion 23 is 5 μm or 100 μm. The thickness of the 5 μm microfibre filter is about 2.2 mm. The thickness of the microfibre filter is 2.7 mm. In addition, the water permeation rate of the 5 占 퐉 microfiber filter is about 5.0 m / h, and the permeability of the 100 占 퐉 microfiber filter is about 22.7 m / h.

The treatment water tank 30 includes a manhole 31 provided on the upper surface thereof and a treatment water tank inlet 34 provided above the partition wall 35 for separating the filtration tank 20 from the treatment tank 20, A reverse water washing pump 33 for supplying high pressure water to the water supply pipe 24, and a drain port 32 for discharging contaminated water to the outside.

FIG. 4 is a perspective view of a multiwound type polymer filter according to an embodiment of the present invention, and FIG. 5 is a front view of a multiwound type polymer filter according to an embodiment of the present invention.

As shown in FIGS. 4 and 5, the multiwound type polymer filter of the non-point pollution abatement facility according to an embodiment of the present invention includes a filter plate 221 made of polymer polyethylene (PE) The cross section has a spiral shape, the outer shape is a multi-layered winding shape, and the cylindrical upper opening portion 222 and the lower opening portion 223 communicate with each other to form a through hole.

The size of the above-mentioned multiwound type polymer filter is designed to have a diameter of 10 mm, a length of 45 mm, a thickness of 0.05 mm, a surface area of 635 m 2 / m 3, and a permeability coefficient of 33.1 m 2 / hr.

In addition, the apparent density of the multiwound type polymer filter is designed to be 0.087 kg / L.

The operation of the nonpoint pollution abatement facility according to one embodiment of the present invention with the above-described configuration is as follows.

When polluted water flows into the pretreatment tank 10 from the outside through the pretreatment tank inlet 12, large contaminants larger than 5 mm in diameter are filtered through the perforation screen 13 and the soil is removed by the precipitation, 28 to the filtration tank 20.

When the contaminated water flows into the lower part of the filtration tank 20 through the filtration tank inlet 28 provided at the lower part of the partition wall 27, the water flows toward the upper side in the direction opposite to the gravity direction, After the contaminants are filtered, microfine contaminants of 5 μm or less are microfiltered continuously through the microfiber filter unit 23, and the filtered water is introduced into the treatment water tank 30 through the treatment water tank inlet 34 .

The filtered water flowing into the treatment water tank 30 through the treatment water tank inflow opening 34 provided in the upper part of the partition wall 35 is drained to the outside through the drainage port 32.

The process of backwashing the contaminated microfibre filter unit 23 and the polymer filter unit 22 in the process of filtering the micropollue contaminants is as follows.

First, a control unit (not shown) operates the stagnant water drain pump 14 of the pretreatment tank 10 to discharge stagnant water in the pretreatment tank 10 through the stagnant water drain pipe 15 to the outside.

Next, a control unit (not shown) stops the operation of the stagnant water drain pump 14 of the pre-treatment tank 10 and activates an air compressor (not shown) The microfibre filter unit 23 and the polymer filter unit 22 are injected toward the filter unit 23 and the polymer filter unit 22 so as to be backwashed by air bubbles.

The linear velocity at the time of backwashing by air bubbles is about 50 m 3 / m 2 / h.

In addition, the air bubble causes a convection phenomenon in the water. Since the multi-turn type polymer filter of the polymer filter portion 22 has a cylindrical shape and a large fluidity, friction between the filters occurs due to convection of water So that the polymer filter portion 22 is cleaned.

As described above, when the foreign matter attached to the polymer filter is dropped due to air bubbles, convection movement, and friction between the filters, as shown in Fig. 5, the water drops downward due to gravity.

Next, the control unit (not shown) stops the operation of the air compressor (not shown) and operates the stagnant water drain pump 14 of the pretreatment tank 10 so that the microfibre filter unit 23 and the polymer filter unit 22 ) So that the waste water is drained to the outside.

Next, a control unit (not shown) stops the operation of the congestion water drain pump 14 of the pre-treatment tank 10 and activates the reverse osmosis pump 33 of the treatment water tank 30, The high pressure water is supplied and the rotary nozzle 25 is rotated by the pressure of the high pressure water so that the rotary high pressure water is injected toward the microfiber filter unit 23 and the polymer filter unit 22, So that the polymer filter portion 22 is backwashed by the rotary high-pressure water.

The linear velocity at the time of backwashing by such high-pressure water of rotation is about 20 m 3 / m 2 / h.

The control unit (not shown) stops the operation of the reverse osmosis pump 33 and operates the stagnant water drainage pump 14 of the pretreatment tank 10 to operate the microfibre filter unit 23 and the polymer filter unit 22, So that the wastewater is drained to the outside.

Next, the operator uses the manholes 11, 21, and 31 to clean the inside of the pretreatment tank 10, the filtration tank 20, and the treatment bath 30.

10: Pretreatment tank 11, 21, 31: Manhole
12: preprocess tank inlet 13: perforated screen
14: Concrete water drainage pump 15: Concrete water drainage pipe
20: Filtration tank 22: Polymer filter unit
23: micro fiber filter section 24: reverse water piping
25: rotation nozzle 26: backwash air piping
27, 35: partition wall 28: filtration tank inlet
30: treated water tank 32: drain
33: Reverse osmosis pump 34: Treatment tank inlet

Claims (4)

A pretreatment tank for pretreating the polluted water from the outside when the polluted water is separated from the pretreatment tank and the septum and filtering the foreign matter while the flow of water is opposite to the direction of gravity when the polluted water is introduced from the pretreatment tank A treatment water tank for storing the filtered water separated from the filtration tank by the filtration tank and the filtration tank and used as wash water; and a treatment water tank for storing the filtered water discharged from the stagnant water drain pump of the pre- And a control unit for controlling the pump,
The pretreatment tank is provided with a manhole installed on the upper surface thereof, a pretreatment tank inflow port provided at the upper part to allow the contaminated water to flow from the outside, a congestion water drain pump provided at the lower part, and one end connected to the congestion water drain pump And a perforated screen installed between the pre-treatment tank inlet and the congestion water drain pump,
The filtration tank has a manhole installed on the upper surface thereof, a filtration tank inlet provided at a lower portion of the partition for separating the pretreatment vessel from the filtration tank, a polymer filter part provided at the lower part, A filter disposed in the upper portion of the microfibre filter portion and having a reverse water pipe for introducing high-pressure water; a rotary nozzle connected to the reverse water pipe; And a backwash air pipe for introducing high-pressure air from the compressor,
Wherein the treatment water tank comprises a manhole provided on an upper surface thereof, a treatment water tank inlet provided on an upper part of a partition wall for separating the filtration tank, a reverse water wash pump for supplying high pressure water to the reverse water wash pipe, And a drain for allowing the water to be drained,
The microfibre filter unit was composed of a microfibre filter having a thickness of 2.2 mm and a permeability of 5.0 m / h and having a three-dimensional multi-layer structure bent in a W-shape using 100% pure fibers of a needle punching nonwoven fabric. Layer structure using two kinds of microfibers of 100 mu m having a thickness of 2.7 mm and a permeability of 22.7 m / h to maximize the filtration area,
Wherein the polymer filter of the polymer filter part is formed of a polymer polyethylene material having a length longer than a width, the cross section of the filter plate has a spiral shape, the outer shape of the filter plate is a plurality of turns of a cylindrical shape and the cylindrical upper and lower openings communicate with each other The porous polymer filter has a diameter of 10 mm, a length of 45 mm, a thickness of 0.05 mm, a surface area of 635 m ² / m ³ , a permeability coefficient of 33.1 m / hr, an apparent density of 0.087 kg / L. < / RTI >
The method according to claim 1,
Characterized in that a space portion is formed between the upper end of the perforated screen and the ceiling of the pretreatment tank so that the upper end of the perforated screen is lower than the ceiling of the pretreatment tank so that the contaminated water can be overflowed and bypassed when the perforated screen is clogged with floating matters. Pollution abatement facility.
delete The method according to claim 1,
Wherein the microfibre filter unit is cleaned by friction between air bubbles, convection, and filters when high-pressure air is supplied through a backwash air pipe.

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