KR101410237B1 - Purification apparatus for wastewater using standing wave - Google Patents

Abstract

The present invention relates to a pipeline (10) formed so that polluted water flows; A stationary wave applying unit 100 installed at one point of the channel 10; A contaminated sedimentation separating means 200 formed downstream of the stationary wave applying unit 100 so that contaminants collected at a certain depth by the stationary wave applying unit 100 pass through the stationary wave applying unit 100 and are separated from the sediment by weight; The present invention provides a pollution control device using standing wave including a high-efficiency, high-efficiency, high-efficiency, and low-risk overloading device.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pollution-

The present invention relates to the field of environmental technology, and more particularly to a polluted water purification apparatus.

The contaminated water basically has a constitution in which a large amount of contaminants floats in water. A method of separating contaminants from such contaminated water is a method in which floc is formed by a chemical or biological method, It has been common to take a method of storing a long time in a storage tank so as to be settled.

However, such a conventional technique has a problem that the efficiency of the purifier is low and the risk of overloading is large because the pollutant has to wait for a long time until the pollutant sinks.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a pollution water purification apparatus and a purification method using standing waves that are excellent in efficiency and reduce the risk of overload.

In order to solve the above-described problems, the present invention provides a piping system comprising: a conduit (10) A stationary wave applying unit 100 installed at one point of the channel 10; The contaminated sedimentation separating means (not shown) formed downstream of the stationary-wave applying unit 100 so as to separate the sediment accumulated by the standing wave applying unit 100 at a predetermined depth through the standing wave applying unit 100, 200) according to the present invention.

The standing wave applying unit 100 includes a wave generating unit 110 installed on one side of the channel 10 to generate waves. And a wave reflecting part 120 provided on the other side of the channel 10 so as to reflect the wave generated by the wave generating part 110.

It is preferable that the wave generating part 110 and the wave reflecting part 120 are installed above and below one point of the channel 10.

The pollutant settling and separation means 200 preferably includes a lower pipe 210 branched at the lower portion of the pipe 10.

The pollutant settling and separation means 200 may include a pollutant inducing member 220 protruding from the upper portion of the lower pipe 210.

The contaminant-inducing member 220 may be formed to close a lower portion of a conduit section of the conduit 10 to separate a flow path of the fluid.

The contaminant inducing member 220 is preferably formed to be inclined in the upstream direction.

The present invention provides a method of manufacturing a plasma processing apparatus, comprising: installing a standing wave applying unit (100) at one point of a pipeline (10) And a step of separating the settling of the contaminants collected at a predetermined depth by the standing wave applying unit 100 through the standing wave applying unit 100 and downward by weight, do.

The present invention proposes a pollution water purification apparatus and purification method using standing waves that are excellent in efficiency and can reduce the risk of overload.

1 shows an embodiment of the present invention,
1 is a sectional view of a first embodiment;
2 is a sectional view of a second embodiment;
3 is a sectional view of a third embodiment;

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

As shown in FIG. 1 and subsequent drawings, the method for cleaning contaminated water according to the present invention basically comprises the steps of: installing a standing wave applying unit 100 at one point of a channel 10 formed to flow contaminated water; And a step of separating the contaminants collected at a certain depth by the standing wave applying unit 100 and sinking downward due to the weight passing through the standing wave applying unit 100.

A standing wave refers to a fixed wave of a node of vibration, which is generated by the synthesis of waves when the waves of the same amplitude and frequency move in opposite directions.

When the standing wave is formed, the particles floating in the medium are arranged in the node of the pressure wave which does not cause the pressure fluctuation.

Therefore, as a method for separating a liquid and a solid material from a mixture such as blood, a method of separating by a standing wave has been used.

The present invention is applied to the field of environmental technology by such a standing wave separation method. The stationary wave applying unit 100 is installed at one point of the duct 10 formed to flow the polluted water so that the pollutant (solid matter) So that the contaminants collected at a predetermined depth are separated downstream by the weight due to the contaminants flowing downstream.

That is, contaminants present in the contaminated water are gathered at a certain depth (central portion of the channel) by the application of stationary waves, so that the contaminants in the upper portion of the channel are settled to the central portion. (Since the pollutants once collected in the central portion are difficult to float up to the upper portion), the pollutant can be quickly separated, and the purification efficiency is excellent, and the risk of overloading can be reduced It is effective.

Here, the term " pollutant " is a collective term of the solid substances distributed in the contaminated water, including particulate matter in turbid water, solid matter that is aggregated by chemical or biological methods, and the like.

Since the separation method using standing wave has been used for solid-liquid separation in a small amount of mixture, there has been no technical idea of "sedimentation of solid matter by gravity ", but in the case of the present invention, (Contaminants) are separated from sedimentation by gravity.

Specifically, the polluted water purification apparatus according to the present invention comprises: a conduit (10) formed to flow polluted water; A stationary wave applying unit 100 installed at one point of the channel 10; The pollutant sedimentation separating means 200 formed downstream of the stationary wave applying unit 100 so as to separate the sediment which is collected by the standing wave applying unit 100 at a certain depth through the stationary wave applying unit 100, (Fig. 1).

Here, the standing wave applying unit 100 is for applying a standing wave at one point to the contaminated water flowing in the pipeline 10, and is provided with a wave generating unit (not shown) formed by a piezoelectric element or the like provided on one side of the pipeline 10, (110); And a wave reflecting portion 120 provided on the other side of the channel 10 so as to reflect the wave generated by the wave generating portion 110. [

Although the wave generating part 110 and the wave reflecting part 120 may be provided on the left and right of one point of the channel 10, since the present invention focuses on the solid-liquid separation in the vertical direction, .

The pollutant settling and separation means 200 may be realized by means of a structure of the lower pipe 210 branched at the lower portion of the pipeline 10 as a means for separating contaminants precipitated while gathered at the central portion of the pipeline by standing wave 1).

In the case of adopting such a configuration, an effect that the remaining water flowing through the pipeline 10 is purified can be obtained by collecting the settling contaminants collected by the standing wave by the lower pipe 210.

When the contaminant inducing member 220 is protruded on the upper portion of the lower pipe 210, contaminants that sink while flowing can be actively guided toward the lower pipe 210, thereby further improving the purification efficiency (FIG. 2).

The contaminant-inducing member 220 is preferably formed to separate the flow path of the fluid by closing the lower part of the conduit section of the conduit 10 (FIG. 3) for stable separation of contaminants.

When the contaminant-inducing member 220 is formed to be inclined in the upstream direction, the above-mentioned contaminants can be guided more smoothly.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: Pipeline 100: Standing wave application section
110: wave generating unit 120: wave reflecting unit
200: Contaminant settling and separation means 210: Lower tube
220: Contaminant inducing member

Claims (8)

A conduit (10) formed to flow the contaminated water;
A stationary wave applying unit 100 installed at one point of the channel 10;
The contaminated sedimentation separating means (not shown) formed downstream of the stationary-wave applying unit 100 so as to separate the sediment accumulated by the standing wave applying unit 100 at a predetermined depth through the standing wave applying unit 100, 200)
The pollutant settling and separation means (200)
A lower tube 210 branched at a lower portion of the channel 10;
And a contaminant inducing member (220) protruding from the upper portion of the lower pipe (210). The method according to claim 1,
The standing wave applying unit 100
A wave generating part 110 installed on one side of the conduit 10 to generate a wave;
A wave reflecting part 120 provided on the other side of the channel 10 so as to reflect the wave generated by the wave generating part 110;
Wherein the control unit is operable to control the flow of the polluted water. 3. The method of claim 2,
Wherein the wave generating part (110) and the wave reflecting part (120) are installed above and below one point of the pipeline (10). delete delete The method according to claim 1,
Wherein the contaminant inducing member (220) is formed to close a lower portion of a conduit section of the conduit (10) to separate a flow path of the fluid. The method according to claim 1,
Wherein the pollutant inducing member (220) is formed to be inclined in the upstream direction. delete

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