KR102543473B1 - Demister for exhaust gas purification - Google Patents

Abstract

The present invention relates to a demister for exhaust gas purification which comprises: a main body having an internal space and having openings at a front surface and a rear surface, respectively; a filter cover of a mesh structure coupled to each opening of the main body; and a filter member accommodated in an internal space of the main body to separate moisture included in exhaust gas passing through the main body.

Description

Demister for exhaust gas purification}

The present invention relates to a demister that removes moisture contained in exhaust gas in advance in purifying exhaust gas discharged from dust generating facilities, diesel generators, and the like.

Gases discharged from various factories, diesel generators, etc. contain various harmful chemicals such as volatile organic compounds (VOCs), which are a major cause of air pollution, or components that cause odor.

The volatile organic compound has various types, but aromatic compounds such as benzene and phenol, hydrocarbon compounds such as alkanes and alkenes, and halogens such as chlorine ) compounds, heterogeneous hydrocarbons including nitrogen, oxygen, etc.

Until now, various types of physical, chemical, and biological methods have been used in an effort to remove volatile organic compounds and odors, such as a cooling condensation method, a catalytic combustion method, a physical adsorption method, and a cleaning method.

However, among these methods, the physicochemical method has high pollutant gas removal efficiency, but requires a lot of operating costs such as facility and material costs, is uneconomical in reducing low-concentration waste gas to the emission standard, and is not economical in reducing secondary pollutants (SOx, CO, NOx) was generated.

As an example of the prior art for solving this problem, Korean Patent Registration No. 10-2447085 discloses a guide vane that allows pollutant gas from a pollutant gas discharge source to be introduced and discharged while forming a vortex; an electrostatic precipitator which allows the gas passing through the guide vane to enter and remove contaminants from the gas by electrostatic precipitate; an adsorption unit for removing contaminants from the gas by adsorption into the gas that has passed through the electrostatic precipitator; and a demister in front of the electrostatic precipitator.

However, in the case of the prior art, a demister is provided to primarily remove the water vapor component of the polluted gas at the front end of the electrostatic precipitator. There is a problem in that it is difficult to expect sufficient moisture removal efficiency for the introduced gas.

Republic of Korea Patent Registration No. 10-2036274

Therefore, the present invention was invented to solve the problems of the prior art as described above, and the residence time and the contact area are increased in the process of passing the exhaust gas to further improve the removal efficiency of the exhaust gas purification The purpose is to provide a demister.

As a means for achieving the above object, the demister for purifying exhaust gas of the present invention (hereinafter referred to as "the device of the present invention") includes a body having an inner space and having openings on the front and rear surfaces, respectively; a net structure filtering cover coupled to each opening of the main body; and a filter member accommodated in the inner space of the main body and separating moisture contained in the exhaust gas passing through the main body.

As an example, the filter member is characterized in that it is made of metal processing by-products discharged in the process of metal cutting.

As an example, the metal processing by-product is characterized by having a spiral coil structure.

As an example, the lower surface of the main body is composed of a net structure, and a collecting part is further configured to communicate with the lower surface of the main body and to collect the moisture separated from the exhaust gas by the filter member by descending.

As an example, one or more induction tubes are formed in the upper and lower directions of the main body, the ends are exposed to the collecting part, and a plurality of through holes are formed. It is characterized in that the induction bar is further configured.

As an example, it is characterized in that a blowing line is further configured by a valve at the end exposed to the collecting part in the induction pipe.

As one example, the main body is characterized in that it further includes one or more reinforcing rods coupled in a diagonal direction from one selected opening of the front or rear surface.

As described above, the demister of the present invention applies the metal processing by-product in the form of a coil as a filter member, so that the residence time, contact area, and centrifugal force are increased in the process of passing the exhaust gas, thereby improving the moisture removal efficiency. there is

Figure 1a is a perspective view showing the apparatus of the present invention.
Figure 1b is an exploded perspective view for explaining the configuration of the device of the present invention.
Figure 2 is a photograph showing a metal processing by-product according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view showing an operating state of the device according to an embodiment of the present invention.
4 and 5 are views showing one embodiment of the present invention.

In describing the present invention, the terms or words used in this specification and claims are based on the principle that the inventor can appropriately define the concept of the term in order to best describe his or her invention. should be interpreted as a meaning and concept that corresponds to the technical idea of

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

The apparatus 1 of the present invention is provided at the front end of a facility for purification of exhaust gas and separates the contaminated moisture contained in the exhaust gas introduced in advance by condensation and centrifugal force to reduce the load such as an electric precipitator provided at the rear end. enable it to be reduced.

The apparatus 1 of the present invention includes a main body 10, a filter cover 20 and a filter member 30 as shown in FIGS. 1A and 1B.

The main body 10 has an inner space 100 and openings 120 are provided on the front and rear surfaces, respectively, and supports the load of the filter member 30 accommodated in the inner space 100.

The main body 10 may have the inner space 100 and the opening 120 formed by forming an outer edge by combining a plurality of unit frames 110 .

At this time, the frame 110 is preferably composed of a metal material having excellent corrosion resistance without deformation even at high temperature in consideration of the inflow of exhaust gas discharged in a high temperature state.

For example, the frame 110 may be made of stainless steel.

As shown in FIG. 1A, the main body 10 may be equipped with a handle 130 or a lifting hook (not shown) on one side selected for easy lifting and transportation.

In addition, it is preferable that the main body 10 is provided with a reinforcing means capable of preventing deformation such as distortion caused by a load during lifting or transporting of the device 1.

For example, the main body 10 may further include one or more reinforcing bars 140 coupled in a diagonal direction to one opening 120 selected from the front or rear surface.

In the body 10, exhaust gas discharged from a diesel generator or the like is introduced through the opening 120 formed on the front side, and exhaust gas introduced through the opening 120 formed on the rear side is discharged. It is preferable to have a bar shape that can minimize the effect on the flow of exhaust gas.

And although the main body 10 is not shown in the drawings, a separate storage space capable of collecting and storing the moisture filtered through the filter member 30 may be provided at the lower part of the inner space 100, A discharge pipe and an on/off valve are connected to the storage space to selectively discharge moisture stored in the storage space.

The filter cover 20 is coupled to each opening 120 of the main body 10 and has a metal mesh structure to prevent separation or separation of the filter member 30 accommodated in the main body 10 while preventing It allows the inflow and outflow of exhaust gas to be performed smoothly.

Here, it is natural that the hole size of the metal mesh should be large enough to prevent the metal processing by-product 300 of the filter member 30 described below from passing through.

In addition, considering that the filter cover 20 is also exposed to a moisture environment, it is preferable that the filter cover 20 is composed of a stainless steel wire net having excellent durability and corrosion resistance.

The filter member 30 is accommodated in the inner space 100 of the main body 10 and separates and processes moisture included in the exhaust gas passing through the main body 10 .

For example, as shown in FIG. 2 , the filter member 30 may be made of metal processing by-products 300 discharged during metal cutting.

That is, in the apparatus 1 of the present invention, as a filter member 30 for removing moisture, a large amount of metal is separated and peeled from raw materials in the process of metal cutting performed by various machine tools such as lathes, milling machines, drilling machines, and CNC. It will use water.

In a normal metal cutting process, the metal processing by-product 300 may be separated and separated from the raw material in a form of a coil having a spiral as well as a linear shape of a straight line or a curve.

The irregular metal processing by-products 300 may be filled in the internal space 100 of the main body 10 in a compressed state, and the introduced exhaust gas may come into contact with the gas as it passes through the main body 10. In addition to increasing the area, the residence time is delayed to improve the water separation efficiency.

That is, moisture is condensed from the exhaust gas by the thermally conductive material of the metal processing by-product 300, but the condensation efficiency is increased by increasing the contact area and residence time.

In particular, as shown in FIG. 3, the metal processing by-product 300 has a coil shape having a spiral shape, so that a vortex is formed in the exhaust gas by this shape, so that the moisture contained in the exhaust gas is acted on by centrifugal force to exhaust the exhaust gas. It is to further increase the separation efficiency of water from gas.

Hereinafter, with reference to FIG. 3, an operation process for the apparatus 1 of the present invention will be described.

First, the device 1 of the present invention can be connected to a pollution source such as a dust generating facility or a diesel generator, and the exhaust gas discharged from the pollution source is filtered through a filter cover 20 installed in the front opening 120 of the main body 10. is introduced through

As mentioned above, the filter cover 20 has a metal mesh structure to prevent separation or separation of the filter member 30 accommodated in the main body 10, as well as to prevent the inflow of exhaust gas. As the moisture particles come into contact with the mesh, the function of partially filtering moisture or moisture containing contaminants can be performed in parallel.

Thereafter, the exhaust gas passing through the filtering cover 20 installed in the front opening 120 of the main body 10 flows into the filter member 30 accommodated in the inner space 100 of the main body 10 .

The filter member 30 is filled with a large amount of metal processing by-products 300 generated in the process of metal cutting in a compressed form, and the exhaust gas flowing into the filter member 30 is discharged from the rear surface of the main body 10. In the process of moving toward the opening 120, it passes through the gap between the metal processing by-products 300. As shown in FIG. 3, a vortex W is induced in the fluid so that the surface and Condensation efficiency is increased by increasing the contact area and residence time, and in addition, the removal efficiency of moisture is improved by the action of centrifugal force by the formation of vortex.

Thereafter, the exhaust gas from which moisture has been removed from the filter member 30 passes through the filter cover 20 having a metal mesh structure mounted on the rear opening 120 of the main body 10 once more, and in this process, the exhaust gas Residual moisture contained in may be adsorbed and removed from the surface of the mesh of the filter cover 20.

Exhaust gas from which moisture containing contaminants has been removed in the apparatus 1 of the present invention is not shown in the figure, but is transmitted to a purification facility linked at the rear end, such as an electric precipitator or a filter for filtering particulate matter, Subsequently, it may be treated to remove harmful pollutants such as fine dust, SOx, NOx, NH3, and VOC.

Meanwhile, in the present invention, in FIGS. 4 and 5, an embodiment for further increasing the efficiency of removing moisture from exhaust gas is presented.

In this embodiment, the lower surface 111 of the main body 10 is composed of a network structure, communicates with the lower surface 111 of the main body 10, and the moisture separated from the exhaust gas by the filter member 30 descends and is collected. It is characterized in that the collection unit 70 is further configured to be.

The lower surface 111 of the main body 10 is a frame 110 forming the lower surface, which is not shown in the drawing, but is composed of a net structure and is separated from the filter member 30 by communicating with the collecting unit 70 at the bottom. This is to allow the moisture to descend and be collected by the collecting unit 70 .

In addition to this, an induction pipe 40 is further configured, and the induction pipe 40 is configured in the upper and lower directions of the main body 10, the end is exposed to the collecting part 70, and the plurality of through holes 41 ) is characterized in that it is formed.

In this way, a plurality of guide tubes 40 are formed, and moisture separated by condensation in the filter member 30 is guided into the guide tube 40 through the through hole 41 and collected by the collecting unit 70. is to make it That is, the moisture separated by the filter member 30 is easily guided to the collecting unit 70 to control deterioration in the separation efficiency of moisture from the exhaust gas due to moisture saturation in the filter member 30 .

In addition, a plurality of guide bars 50 protruding from the guide pipe 40 and forming an upward gradient are further configured so that moisture from the filter member 30 in a wider area is guided to the guide pipe 40. is to do

In addition, as the function of holding the filter member 30 is expressed in the entire area of the filter member 30 by the configuration of the guide bar 50, the metal processing by-products 300 in the filter member 30 over time It is to control the phenomenon of being pulled downward by its own weight.

That is, in the filter member 30, the metal processing by-products 300 are controlled to be lowered due to their own weight, so that the water removal efficiency of the filter member 30 is reduced over time.

As shown in the drawing, it is appropriate that the guide bar 50 is configured in a shape in which a groove is formed on the upper surface so that a flow path through which moisture can descend is formed.

In addition to this, the present embodiment is characterized in that the blowing line 60 is further configured by the valve 62 at the end exposed to the collecting part 70 in the induction pipe 40.

A blower 61 is configured in the blowing line 60 so that outside air is injected into the induction pipe 40 through the blowing line 60 so that air is blown into the filter member 30 .

In this way, by allowing outside air (a) to flow into the filter member 30, in addition to easily separating moisture from the filter member 30, the exhaust gas passes through the filter member 30. This is to control the deterioration of the condensation efficiency of the filter member 30 as the temperature rises. That is, the temperature of the filter member 30 is lowered by blowing air inside the filter member 30 .

In this way, the operation of the blower line 60 by the blower 61 and the valve 62 may be selectively operated in a plurality of induction pipes 40, and after the exhaust gas passes through, the entire induction pipe 40 you can drive

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concept of the present invention defined in the following claims are also made according to the present invention. falls within the scope of the rights of

10: main body 20: filter cover
30: filter member 40: induction pipe
50: induction bar 60: blowing line
70: collection unit 100: inner space
110: frame 120: opening
130: handle 140: reinforcement
300: metal processing by-products

Claims (7)

A main body having an inner space and having openings on the front and rear sides, respectively;
a net structure filtering cover coupled to each opening of the main body; and
A filter member accommodated in the inner space of the main body to separate moisture contained in the exhaust gas passing through the main body; including,
The filter member is made of metal processing by-products discharged during the metal cutting process,
The lower surface of the main body is composed of a net structure, and a collecting part is further configured to communicate with the lower surface of the main body and allow the moisture separated from the exhaust gas by the filter member to descend and be collected,
One or more induction tubes are formed in the upper and lower directions of the main body, the ends are exposed to the collecting part and a plurality of through holes are formed, and a plurality of induction tubes protrude and form an upward slope. Induction bars are further configured A demister for exhaust gas purification, characterized in that.
delete According to claim 1,
The metal processing by-products,
A demister for purifying exhaust gas, characterized in that it has a spiral coil structure.
delete delete According to claim 1,
A demister for purifying exhaust gas, characterized in that a blowing line is further configured by a valve at the end exposed to the collecting part in the induction pipe.
According to claim 1,
the body,
A demister for purifying exhaust gas, characterized in that it further comprises one or more reinforcing bars coupled in a diagonal direction from one opening selected from the front or rear.

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