KR101113318B1 - Treatment method of nonpoint pollutant using nonpoint pollutant treatment device - Google Patents

Abstract

PURPOSE: A method for treating non-point pollutants using a non-point pollutant treating apparatus is provided to prevent the generation of decomposition and bad odor and to automatically operating a bar screen, a sucking pump, and a solid inorganic material cleaning pump. CONSTITUTION: A method for treating non-point pollutants using a non-point pollutant treating apparatus includes the following: rainwater is introduced, and a bar screen and a sucking pump operate; the flux of rainwater is reduced by a flux reducing wall to settle solid inorganic materials in a settling basin(S410); suspended inorganic materials are separated(S420); rainwater through the bar screen is introduced into an oil and water separating bath(S430); fine suspended materials are sucked by the sucking pump and is transferred to an absorbent filtering unit(S440); the purified rainwater is transferred to a stabilizing bath through a connecting pipe; the transferred rainwater is discharged to the outside of a container; and the bar screen and the sucking pump are stopped, and a solid inorganic material cleaning pump operates.

Description

Treatment method of nonpoint pollutant using nonpoint pollutant treatment device {.}

The present invention relates to a method for treating non-point pollutants using a non-point pollutant treatment device, and more particularly, solid soils mixed with rainwater or heavy heavy minerals are precipitated in the sedimentation basin, such as vinyl, fallen leaves, and twigs. Inorganic floats are removed from the bar screen, and fine floats mixed with oil or oil are sucked with a suction pump and then filtered through adsorption through a filter to remove nonpoint pollutants. It relates to a method of treating non-point pollutants using.

The present invention relates to a method for treating nonpoint pollutants using a nonpoint pollutant treatment device.

Generally, water pollution sources are divided into point sources and nonpoint pollutants. Point sources consist mainly of domestic wastewater from households or business areas, industrial wastewater from factories, and livestock wastewater from large livestock facilities. Tracking of generation is relatively easy and is the main target of sewage treatment.

On the other hand, non-point pollutants refer to wastewater from agricultural drainage, mine wastewater, livestock wastewater from small scale livestock facilities, and living sewage or forest land in rural areas without sewers.

Nonpoint pollutants are also referred to as nonspecific pollutants, cotton pollutants, mobile pollutants, or other water pollutants. Point sources refer to places or areas where nonpoint pollutants are generated through unspecified emissions pathways, such as urban road drainage or agricultural land drainage, unlike those with specific emissions pathways.

Nonpoint pollutants are mainly pollutants that are discharged along with surface runoff when it rains, and fertilizers, pesticides, soil erosions, barn spills, traffic pollutants, urban dust and garbage, residues of natural animals and plants. It refers to water and air pollutants that fall on the ground.

Thus, rainwater discharged, including all pollutants, is in fact the main nonpoint pollutant. Non-point pollutants are usually discharged only when there is a lot of rain, so they have a large difference in daily and seasonal emissions, difficult to predict and quantify, and are affected by weather conditions, geology, and terrain, which are difficult to artificially control.

In addition, conventionally, road drainage in urban areas is to install a storage tank as a countermeasure for reducing non-point pollutants so as to settle and discharge pollutants caused by the initial rain.

In addition, the conventional non-point pollutant treatment device installed a rainwater flowing into the device by installing a rotary device or the like, the flow rate is generated while the rainwater is rotated by the rotary device, such as oil and oil rising to the top when this flow rate is reduced Since the organic matter had to be removed, there was an inconvenience of purifying rainwater for a long time, and there was a problem that management and maintenance of such a device were difficult.

An object of the present invention devised to solve the problems described above, sediment mixed with rainwater or heavy inorganic matters are precipitated in the settlement, and light inorganic flotations such as vinyl, fallen leaves, twigs are removed from the bar screen The fine suspended solids mixed with oil or oil are sucked with a suction pump and then filtered by adsorption through a filter to remove nonpoint pollutants, thereby treating nonpoint pollutants using a nonpoint pollutant treatment device to discharge rainwater to a river. To provide a method.

In addition, another object of the present invention is the operation of the bar screen, the suction pump and the solid inorganic cleaning pump is automatically performed as rainwater is introduced into the discharge device, and discharged, non-point pollution by moving the solid inorganic and suspended solids to the float plate The purpose of the present invention is to provide a method for treating non-point pollutants using a non-point pollutant treatment device that can conveniently remove and manage substances.

In addition, another object of the present invention is to provide a method for the treatment of non-point pollutants using a non-point pollutant treatment device that can prevent corruption and odor by removing rainwater and solid inorganic matter remaining in the sedimentation site due to the solid mineral cleaning pump. For sake.

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The non-point pollutant treatment method using the non-point pollutant treatment device of the present invention, the inlet and outlet are formed on both sides so that rainwater is introduced into and discharged from the ground, the enclosure formed with an entrance for entering and exiting the upper side ; A sedimentation part including a sedimentation branch formed with a sedimentation preventing wall so that rainwater flows into the inlet and precipitates solid minerals; A screen unit provided with a bar screen on an upper side of the anti-sedimentation wall to separate the inorganic floats floating on the upper side of the rainwater and to accumulate them with floating material plates; The rainwater from which the inorganic floats are separated is moved to the oil / water separation tank, and a suction pump for sucking the fine floats floating on the upper side of the rainwater, and a communication pipe through which the rainwater purified by the fine floats is moved to the stabilizer tank is prevented from flowing out. Oil and water separator comprising a wall; An adsorption filtration device which adsorbs the fine float sucked by the suction pump and discharges rainwater separated from the suction pump to an oil-water separation tank to recycle the purified water; And a control unit for controlling the operation of the bar screen and the suction pump according to the rainwater flowing into and discharged from the enclosure, wherein the oil / water separation unit prevents vortices and decelerates the flow rate when the rainwater moves to the oil / water separation tank. Further comprising a vortex blocking wall installed in front of the runoff discharge prevention wall so that the floating of the fine float, and between the runoff discharge barrier and the vortex blocking wall, the coarse lattice plate is provided so that only the fine float can float Further comprising, but the method of treatment of non-point pollutants using a non-point pollutant treatment device, characterized in that the suction pump is installed on the upper side of the coarse lattice plate, (a) if rainwater flows through the inlet and the bar screen and suction The pump is operated, and the rainwater flow rate is reduced by the flow rate reducing wall, so that the solid inorganic matter is deposited on the settlement; (b) separating the inorganic float floating on the upper side of the rainwater in which the solid inorganic matter is precipitated in the step (a) by the bar screen; (c) when the rainwater flows through the bar screen and flows into the oil / water separation tank in step (b), sucking the fine suspended solids floating on the upper side with a suction pump and sending the same to the adsorption filtration device; (d) the rainwater purified by suction of the microfloat in step (c) is moved to the stable tank through the communication pipe, the discharged rainwater is discharged to the outside of the enclosure; And (e) the inflow of rainwater inside the enclosure stops and the operation of the bar screen and the suction pump is stopped when the water level is not discharged, and the solid mineral cleaning pump is operated to float the solid mineral deposited on the settlement. Moving to the plate; wherein the step (c) comprises: (c1) vortices being prevented by the vortex barrier wall and the flow rate is decelerated when rainwater flows into the oil / water separation tank; (c2) in the step (c1), floating only the fine float by the coarse lattice plate to the upper side of the rainwater, and the suction pump sucks only the fine float to send to the adsorption filtration device; And (c3) the adsorption filtration device adsorbs the fine float and discharges the rainwater separated from the fine float to the oil / water separation tank for recycling.

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In addition, after the step (e), the step of (b) and (e) in the step of moving to the floating material plaque discharged and removed the inorganic suspended solids and solid inorganic matter deposited to the outside of the enclosure; further includes.

According to the present invention as described above, solid soils mixed with rainwater or heavy heavy inorganic matters are settled in the sedimentation land, and light inorganic flotations such as vinyl, fallen leaves, and twigs are removed from the bar screen, and oil or oil is mixed finely. The suspended matter is suctioned with a suction pump and then filtered through adsorption to remove nonpoint pollutants, thereby providing a method for treating nonpoint pollutants using a nonpoint pollutant treatment device to discharge rainwater to a river.

In addition, according to the present invention, as rainwater flows into and out of the treatment apparatus, the operation of the bar screen, the suction pump and the solid inorganic cleaning pump is automatically performed, and the non-point pollutants by moving the solid inorganic matter and the suspended solids to the float bulk plate. It is possible to provide a method for treating non-point pollutants using a non-point pollutant treatment device that can conveniently manage and maintain the treatment apparatus by easily removing the same.

In addition, according to the present invention, it is possible to provide a method for the treatment of non-point pollutants using a non-point pollutant treatment device that can prevent corruption and odor by removing rainwater and solid minerals remaining in the sedimentation ground due to the solid mineral cleaning pump. have.

1 is an exploded perspective view showing a non-point pollutant treatment apparatus according to a preferred embodiment of the present invention,
Figure 2 is a cross-sectional view showing a non-point pollutant treatment apparatus according to a preferred embodiment of the present invention,
3 is a view showing the flow of rain according to the operation of the non-point pollutant treatment apparatus according to a preferred embodiment of the present invention,
Figure 4 is a flow chart showing a method for treating non-point pollutants using a non-point pollutant treatment apparatus according to a preferred embodiment of the present invention.

Specific details of other embodiments are included in the detailed description and the drawings.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and the general knowledge in the art to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, the present invention will be described with reference to the drawings for explaining a non-point pollutant treatment apparatus and a method for treating a nonpoint pollutant using the same according to embodiments of the present invention.

1 is an exploded perspective view showing a non-point pollutant treatment apparatus according to a preferred embodiment of the present invention, Figure 2 is a cross-sectional view showing a non-point pollutant treatment apparatus according to a preferred embodiment of the present invention, Figure 3 is a preferred embodiment of the present invention 4 is a flow chart illustrating a non-point pollutant treatment method using a non-point pollutant treatment device according to a preferred embodiment of the present invention.

First, referring to FIGS. 1 and 2, the apparatus 100 for treating non-point pollutants according to a preferred embodiment of the present invention includes a housing 110, a sedimentation unit 120, a screen unit 130, and an oil / water separator. 140, an adsorption filtration device 150, and a controller 160.

The enclosure 110 includes an inlet 112, an outlet 114, and an inlet 116 and is embedded in the ground.

Inlet 112 is formed on one side of the housing 110 is rainwater is introduced with the non-point pollutant.

In addition, the outlet 114 is purified by the non-point pollutant through the sedimentation unit 120, the screen unit 130, the oil and water separation unit 140 and the adsorption filtration unit 150 which will be described later the rainwater introduced into the inlet 112 Is discharged.

On the other hand, the entrance 116 is formed on the upper side of the enclosure 110, it is formed so that the administrator can enter and exit to check the non-point pollutant treatment apparatus 100. In addition, the doorway 116 is preferably formed of a manhole (hole made to allow people to enter and exit the road surface), and is normally closed by the manhole cover 118.

Here, the non-point pollutants will be described as being classified into solid inorganic matters, inorganic rich matters and fine floating matters, but the present invention is not limited thereto.

In other words, solid minerals refer to earth and sand with a high specific gravity, and inorganic floats refer to deciduous leaves, twigs, and vinyl, etc., with a light specific gravity. In addition, the fine flotation refers to the oil and oil of the vehicle.

The upper side of the enclosure 110 is further formed to prevent corrosion of the device by the moisture generated inside, and to be discharged to the outside when the gas is generated to be a safe management of the manager is further formed.

The sedimentation unit 120 includes a sedimentation base 122, a flow rate reducing wall 126, and a solid inorganic cleaning pump 128.

The settling paper 122 is a place where the solid inorganic matters contained in the rainwater flowing into the inlet 112 are settled, and when the rainwater flows into the settling paper 122, the solid minerals do not flow out to the screen part 130 by the flow rate. An immersion prevention wall 124 is formed at one side of the 122.

In addition, the flow rate reducing wall 126 slows down the flow rate of rainwater flowing into the settlement paper 122, so that the solid inorganic matter is precipitated to the lower side of the precipitation land 122 among the rainwater that is initially introduced, and the inorganic floating matter and the fine floating water are Allow it to float upwards.

In addition, the solid inorganic cleaning pump 128 is a pump for sucking the rainwater and sedimented solid inorganic matter remaining in the settlement ground 122 to move to the floating material plate 152.

That is, the solid mineral cleaning pump 128 is to remove rainwater and solid minerals in the settlement land 122 so as not to rot, and to prevent the generation of odor by corruption in advance.

Here, the floating material plate 152 is a place where the rainwater and solid inorganics moved to the solid mineral cleaning pump 128 and the inorganic float separated by the bar screen 132 of the screen unit 130 to be described later, the boiling point The enclosure of the pollutant treatment device 100 can be easily discharged and removed to the outside of the housing 110, the rainwater, solid minerals and inorganic floats deposited on the floating material plate 152 through the entrance 116 ( It is preferable to be installed above the inside of 110.

The screen unit 130 is provided with a bar screen 132 at the center of the upper side of the anti-settling wall 124 to separate the inorganic floats floating on the upper side of the rainwater is deposited by the floating material plate 152.

At this time, the bar screen 132 is made of a lower bed, and separates the inorganic float with a rake, and further includes a screen channel wall 134 formed on both sides so that rainwater can be collected into the bar screen 132.

The screen channel wall 134 is intended to be separated by the bar screen 132 by collecting the rainwater to the bar screen 132 without moving to the oil-water separation tank 142 to be described later.

The oil / water separator 140 includes an oil / water separator 142, a suction pump 144, an oil-water discharge prevention wall 146, a vortex prevention wall 148, a coarse grid 149, and a stabilizer tank 141.

Oil-water separation tank 142 is where the rainwater separated from the inorganic float is moved, the suction pump 144 is installed on the upper side of the rain to suck the fine float.

The suction pump 144 sucks the fine float and transfers it to the adsorption filtration device 150 which will be described later.

In addition, the flowing water discharge preventing wall 146 is formed with a communication pipe 147 at the lower side is moved to the stabilization tank 141, the fine flotation is sucked by the suction pump 144 and purified.

That is, the runoff discharge preventing wall 146 prevents fine floats floating on the upper side of rainwater from moving to the stabilization tank 141, and only rainwater does not contain the fine floats through the communication pipe 147 formed on the lower side. It is to be moved to the stabilizer (141).

Then, the vortex blocking wall 148 is the front of the oil discharge limit wall 146 to prevent the vortex and to reduce the flow rate when the rainwater moves to the oil-water separation tank 142 so that the fine suspended solids to float to the upper side of the rainwater, Rainwater is installed at the inlet of the oil and water separation tank 142 is introduced.

On the other hand, the coarse grid 149 is provided so that only the fine float between the runoff discharge preventing wall 146 and the vortex blocking wall 148, the suction pump 144 is installed on the upper side of the coarse grid 149 do.

That is, the coarse lattice plate 149 prevents the inorganic floats or particles having large particles that are not separated from the bar screen 132 from floating to the upper side of the rainwater, and when the suction pump 144 sucks the fine floats, the inorganic floats or The purpose of the present invention is to allow the fine particles to be sucked smoothly without being blocked by the large suspended matter.

Adsorption filtration device 150 may be removed by recirculating and purifying the fine water separated by the suction pump 144 sucked and separated to the oil and water separation tank 142 to completely remove the fine flotation.

In addition, the adsorption filtration device 150 adsorbs and removes the fine flotation through an active carbon filter.

In addition, since the adsorption filtration device 150 needs to be periodically replaced with the active carbon filter, the adsorption filtration device 150 is preferably formed on the upper side of the floating bulk plate 152 so as to be easily replaced. This is to remove the solid inorganic matter and the inorganic floating matter deposited on the float plate 152, and to easily replace the active carbon filter of the adsorption filtration device 150.

The controller 160 controls the operations of the bar screen 132 and the suction pump 144 according to the rainwater level flowing into and out of the enclosure 110.

That is, the controller 160 operates the bar screen 132 and the suction pump 144 when rainwater flows into the enclosure 110 and reaches a predetermined level. Here, the control unit 160 to suck the floating fine float on the upper side of the rain while moving the suction pump 144 up and down according to the water level.

And, if the rainwater does not flow into the interior of the enclosure 110 any more, and the purified rainwater is not discharged, the control unit 160 places importance on the operations of the bar screen 132 and the suction pump 144, and solid The inorganic cleaning pump 128 may be operated to suck solid minerals deposited on the lower part of the settlement paper 122, and the solid mineral cleaning pump 128 may be moved up and down within the settlement paper 122 to suck solid minerals. .

Next, a non-point pollutant treatment method will be described using the above-described nonpoint pollutant treatment device 100.

3 and 4, the non-point pollutant treatment method using the non-point pollutant treatment device 100, first, when rainwater is introduced into the interior through the inlet 112 of the housing 110 and the bar screen 132 and The suction pump 144 is operated, and the excellent flow velocity is reduced by the flow rate reducing wall 126, and solid inorganic matter is precipitated on the settling basin 122 (step S410).

Next, the inorganic float floating above the rainwater where the solid inorganic matter is deposited is separated by the bar screen 132 into the floating material plate 152. (Step S420) Here, the bar screen 132 has a screen channel wall ( 134), the rainwater is collected, and the inorganic float is removed with a rake and separated from the bottom to the top.

In addition, when the rainwater from which the inorganic float is separated passes through the bar screen 132 and flows into the oil / water separation tank 142, the fine float suspended above is sucked by the suction pump 144 and sent to the adsorption filtration device 150.

That is, in step S430, when the rainwater flows into the oil / water separation tank 142, the vortex is prevented by the vortex blocking wall 148 and the flow rate is reduced.

Then, only the fine float is suspended by the coarse grid 149 above the rainwater, and the suction pump 144 sucks only the fine float and sends it to the adsorption filtration device 150 (step S440).

When the suction pump 144 sucks the fine float, it moves up and down according to the water level of the oil / water separation tank 142 and sucks the fine float floating on the upper side of the rainwater.

Then, the adsorption filtration device 150 adsorbs the fine flotation and discharges the rainwater separated from the fine flotation to the oil / water separation tank 142 to be recycled (step S450). Can be.

At this time, the adsorption filtration device 150 adsorbs and removes the fine flotation through an active carbon filter.

Then, the rainwater purified by the suction of the fine float is moved to the stabilizer tank 141 through the communication pipe 147, and the moved rainwater is discharged to the outside of the housing 110 (step S460).

Then, the inflow of rainwater stops in the interior of the enclosure 110, the operation of the bar screen 132 and the suction pump 144 is stopped when the water level is not discharged, the solid inorganic cleaning pump 128 is operated In order to move the solid mineral precipitated on the settling paper 122 to the floating material plate. (Step S470)

As a result, the rainwater and the solid inorganic matter remaining without being discharged in the settlement paper 122 can not only prevent corruption, but also prevent the occurrence of odor due to corruption in advance.

Finally, in step S420 and step S450 is moved to the floating material plaque to discharge and remove the accumulated rainwater, solid minerals and inorganic floats to the outside of the housing 110 (step S480).

That is, the manager of the non-point pollutant treatment device 100 enters the interior of the enclosure 110 through the doorway 116 and easily encloses the rainwater, solid minerals, and inorganic floats deposited on the float plate 152. At the same time, the active carbon filter of the adsorption filtration device 150 is replaced.

Those skilled in the art will appreciate that the present invention can be embodied in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is indicated by the scope of the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalent concept are included in the scope of the present invention. Should be interpreted.

100 Non-point pollutant treatment unit 110 enclosure
112 inlet 114 outlet
116 Doorway 118 Manhole Cover
119 Ventilation hole 120
122 Sedimentation Sites 124
126 Flow Reduction Wall 128 Solid Wet Cleaning Pump
130 screen 132 bar screen
134 Screen Channel Wall 140 Oil / Water Separator
141 Stabilizer 142 Oil and Water Separation Tank
144 Suction Pump 146 Runoff Discharge Wall
147 Communication tube 148 Vortex barrier
149 Coarse lattice plate 150 adsorption filtration system
152 Floating Material Plate 160 Control Unit

Claims (8)

delete delete delete delete delete Buried in the ground is inlet and outlet are formed on both sides so that rainwater is introduced and discharged, the upper body is formed with an entrance for entering and exiting the inside; A sedimentation part including a sedimentation branch formed with a sedimentation preventing wall so that rainwater flows into the inlet and precipitates solid minerals; A screen unit provided with a bar screen on an upper side of the anti-sedimentation wall to separate the inorganic floats floating on the upper side of the rainwater and to accumulate them with floating material plates; The rainwater from which the inorganic floats are separated is moved to the oil / water separation tank, and a suction pump for sucking the fine floats floating on the upper side of the rainwater, and a communication pipe through which the rainwater purified by the fine floats is moved to the stabilizer tank is prevented from flowing out. Oil and water separator comprising a wall; An adsorption filtration device which adsorbs the fine float sucked by the suction pump and discharges rainwater separated from the suction pump to an oil-water separation tank to recycle the purified water; And a control unit for controlling the operation of the bar screen and the suction pump according to the rainwater flowing into and discharged from the enclosure, wherein the oil / water separation unit prevents vortices and decelerates the flow rate when the rainwater moves to the oil / water separation tank. Further comprising a vortex blocking wall installed in front of the runoff discharge prevention wall so that the floating of the fine float, and between the runoff discharge barrier and the vortex blocking wall, the coarse lattice plate is provided so that only the fine float can float Further comprising, in the treatment method of non-point pollutants using a non-point pollutant treatment device, characterized in that the suction pump is installed on the upper side of the coarse grid,
(a) when rainwater flows through the inlet, the bar screen and the suction pump is operated, the flow rate of rainwater is reduced by the flow rate reducing wall to precipitate solid minerals in the settlement;
(b) separating the inorganic float floating on the upper side of the rainwater in which the solid inorganic matter is precipitated in the step (a) by the bar screen;
(c) when the rainwater flows through the bar screen and flows into the oil / water separation tank in step (b), sucking the fine suspended solids floating on the upper side with a suction pump and sending the same to the adsorption filtration device;
(d) the rainwater purified by suction of the microfloat in step (c) is moved to the stable tank through the communication pipe, the discharged rainwater is discharged to the outside of the enclosure; And
(e) When the rainwater flows into the enclosure and the discharge level is not reached, the bar screen and the suction pump are stopped, and the solid mineral cleaning pump is operated to float the solid mineral deposited on the settlement. Moving to;
The step (c)
(c1) vortex is prevented by the vortex blocking wall when rainwater flows into the oil / water separation tank and the flow rate is decelerated;
(c2) in the step (c1), floating only the fine float by the coarse lattice plate to the upper side of the rainwater, and the suction pump sucks only the fine float to send to the adsorption filtration device; And
(C3) the method for treating non-point pollutants using a non-point pollutant treatment device comprising the step of: the adsorption filtration device adsorbs the fine float, and discharged to recycle the rainwater separated from the fine float to the oil-water separation tank.
delete The method of claim 6, wherein after step (e),
(B) and (e) the non-point pollutant using a non-point pollutant treatment device further comprising the step of discharging and removing the inorganic suspended solids and solid inorganic matters moved to the floating material plate in the outside of the enclosure; Way.

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