KR102012507B1 - Apparatus for purification of waste gas - Google Patents

Abstract

The present invention relates to a waste gas purification apparatus capable of purifying waste gas having various chemical substances including carbon dioxide, sulfur monoxide, and nitrogen monoxide generated when using mineral sources as fuel. The apparatus comprises: a first port and a second port; a first platinum filter; a second platinum filter; and a heater.

Description

Waste Gas Purification System {APPARATUS FOR PURIFICATION OF WASTE GAS}

The present invention relates to a waste gas purification apparatus capable of purifying waste gases having various chemical substances including carbon dioxide, sulfur monoxide, and nitrogen monoxide generated when using mineral resources as fuel.

Every house, office, institution, factory, etc., outflow of waste gas with thorny fuel is scattered into the air through convection, even though it is invisible, and waste gas is odorless and colorless, so people are not aware of the seriousness.

However, in the case of such waste gas, inhalation in a closed space is toxic to the extent that there is a fear of asphyxiation due to the increased concentration of waste gas.

Waste gas chemicals emitted by the combustion of gases in gas boilers include carbon dioxide, sulfur monoxide and nitrogen monoxide from coal-fired power plants.

On the other hand, the sulfur monoxide and nitrogen monoxide is changed to fine dust as it is mixed in the air.

The time when these fine dust rises is not from summer, but from autumn to late spring. That is, it is a time when the frequency of use of a gas boiler becomes high. In addition, fine dust is likely to rise when warm weather continues rather than when the wind blows.

Applicant believes that if the technology to continuously purify such waste gas is developed, it can be a countermeasure against fine dust, and also solves the problems such as environmental pollution and human damage caused by waste gas emission. do.

It is proposed a purifier to solve this problem.

On the other hand, with respect to the technology for purifying waste gas, Korean Patent Publication No. 10-2018-0122113 discloses a next-generation high efficiency clean combustion boiler by a stage cross-combustion technology and a combustion method using the same.

The technique is a technique of mixing two kinds of fuel through two or more nozzles. The fuel of the first primary nozzle uses a variety of renewable fuels, such as traditional fossil fuels such as diesel or refined oil. As the secondary fuel of the second nozzle, an alcohol fuel containing 50% or more of water mixed is used.

By using a cross-combustion method using two fuels with completely different characteristics in these two nozzles, various pollutants and toxic substances contained in the primary fuel, which provide a large amount of heat, are lower than the air pollution emission standard without any special air pollution control device. The present invention relates to a boiler combustion technology which is substantially improved in efficiency compared to a conventional combustion boiler while being discharged.

However, in the case of the above technology, it has a different structure in terms of clean function than the technology that the applicant intends to propose.

On the other hand, with regard to petroleum-fired power generation, the following techniques are described for purifying the exhaust air.

The high purity and fine coal ash recovery apparatus of the thermal power plant described in Korean Patent Publication No. 10-0596034 has been described.

The above technique relates to a high purity and finely powdered ash recovery device of a thermal power plant having a low unburned carbon content and a high powdery density by a centrifugation process using a particle size and specific gravity difference of each component in powder. The present invention relates to a high-purity and fine coal ash recovery device that can be applied to a refinery for easily separating unburned carbon contained in coal ash generated in a power plant.

Regarding the technology for purifying the generated soot (smoke, gas, etc.), Patent Publication No. 10-1725377 discloses a power plant exhaust gas purification apparatus, purification method and plant cultivation method using carbon dioxide in power plant exhaust gas This is described.

The technique produces an absorbent liquid in which iron ions are dissolved, and adds hydrogen peroxide to pass the exhaust gas of the power plant through the absorbent liquid to generate sulfate and nitrate ions from sulfur dioxide and nitrogen oxide contained in the power plant exhaust gas. And nitrate ions at room temperature and atmospheric pressure and increase solubility to collect in the absorbent liquid and neutralize and remove them. The power plant exhaust gas purification device for utilization of carbon dioxide in power plant exhaust gas has three valves inside the reactor. Four columns are formed by partitioning, and the discharge gas of the power plant is injected into the lower part of the first column so that the injected gas rises together with the liquid catalyst inside the reactor in the form of a bubble. Descend from the second column beyond the top of and through the lower side of the second valve After moving to column 3 and ascending, descending from the fourth column beyond the top of the third valve, and then the liquid catalyst moves to the first column again through the lower end of the reactor. The inside of the reactor is trapped in the absorbent liquid of the liquid catalyst and removed, and carbon dioxide is discharged and separated through the gas outlet at the top of the reactor.

Korean Patent Publication No. 10-1757250 describes a power plant exhaust gas purification apparatus, a purification method, and a plant cultivation method using the same for utilizing carbon dioxide in power plant exhaust gas.

The technique is similar to the third prior art, which is a technology filed by the applicant of the third prior art.

However, the above-described prior art differs in the overall structure for purifying the present invention and the purifying method according to the present invention proposed by the applicant.

Patent Publication No. 10-2018-0122113 (Nov. 12, 2018) Patent Application Publication No. 10-0596034 (July 03, 2006) Patent Application Publication No. 10-1725377 (April 26, 2017) Patent Application Publication No. 10-1757250 (August 12, 2017)

It is an object of the present invention to provide a waste gas purification apparatus capable of purifying waste gases having various chemical substances including carbon dioxide, sulfur monoxide, and nitrogen monoxide generated when using mineral resources as fuel.

Waste gas purification device according to the present invention devised to achieve the above object,

The purification apparatus for removing the harmful components contained in the waste gas generated when used as fuel, such a purification device 10,

The first sphere 11 and the second sphere 12 in charge and suction of the waste gas;

A first platinum filter 13 positioned closest to the first sphere 11 to primarily remove harmful components of the waste gas;

A second platinum filter 14 positioned at a next stage of the first platinum filter 13 to secondaryly remove harmful components from the waste gas from which firstly harmful components have been removed through the first platinum filter 13;

Located at the next stage of the second platinum filter 14, characterized in that it comprises a heater 15 for applying heat to continue the harmful component removal function of the second platinum filter 14.

According to the waste gas purification apparatus according to the present invention, it is possible to provide a waste gas purification apparatus capable of purifying waste gases having various chemical substances including carbon dioxide, sulfur monoxide, and nitrogen monoxide generated when using mineral resources as fuel.

1 and 2 show the configuration of the waste gas purification apparatus according to the present invention.
Figure 2 shows an internal cross-sectional view of the waste gas purification apparatus according to the present invention.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best describe their invention. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the matters described in the embodiments and drawings described herein are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, and various equivalents may be substituted for them at the time of the present application. It should be understood that there may be water and variations.

Before describing the present invention with reference to the drawings, it is not shown or specifically described for the matters that are not necessary to reveal the gist of the present invention, that is, those skilled in the art can obviously add. Make a note.

The present invention relates to a waste gas purification apparatus capable of purifying waste gases having various chemical substances including carbon dioxide, sulfur monoxide, and nitrogen monoxide generated when using mineral resources as fuel.

This invention will be described with reference to the accompanying drawings.

1 and 2 show the configuration of the waste gas purification apparatus according to the present invention.

Waste gas purification device 10 of the present invention according to the accompanying drawings,

The first sphere 11 and the second sphere 12 to function as the inlet and outlet of the waste gas, wherein the first sphere 11 is an inlet for the intake of waste gas and the second sphere 12 is purified It is a discharge port functioning to discharge the clean air by the waste gas.

In addition, the first platinum filter 13 is positioned at the front end of the first sphere 11 in the purification apparatus 10, and the second platinum filter 14 is positioned at the rear end of the first platinum filter 13. .

The heater 15 may be installed behind the second platinum filter 14.

The platinum filters 13 and 14 function to remove harmful components contained in the waste gas. The platinum filters 13 and 14 may be deteriorated due to continuous use. However, the platinum filters 13 and 14 may be forcedly regenerated as the heat source is supplied. The removal function can be reproduced in an active manner.

At this time, the first platinum filter 13 close to the first sphere 11 is forcedly regenerated because the waste gas has a high temperature due to the temperature of the waste gas generated by burning raw materials (mineral resources) as fuel. By repeating the method, it is possible to remove the harmful components contained in the waste gas.

However, in the case of the second platinum filter 14, since the loss of heat may occur while the harmful platinum component 13 is acted on and removed from the first platinum filter 13, the first platinum filter 13 may first remove the harmful component. Even if the waste gas in the state is removed secondarily, the removal efficiency may be lowered.

In order to prevent this, by installing a heater 15 at a position spaced at intervals of about 15-20 mm at the rear end of the second platinum filter 14 to transfer the heat source to the second platinum filter 14, the second platinum filter ( In 14), the function for removing harmful components can be continued by forced regeneration.

Reference is made to FIG. 2 of the accompanying drawings.

Figure 2 shows an internal cross-sectional view of the waste gas purification apparatus according to the present invention.

2 of the accompanying drawings is a view from the direction of the second sphere 12, with reference to this, the heater 15 is operated by the electrical connection to the purifier 10 to be able to release the heat source.

Therefore, the waste gas from which the harmful components are firstly removed through the first platinum filter 13 is secondly removed from the second component with the same removal efficiency as that of the first platinum filter 13 through the second platinum filter 14. The purified air is discharged through the second sphere 12.

The purifier 10 may be configured as shown in the accompanying drawings and the bracket for the installation, according to the design conditions, both the first sphere 11 and the second sphere 12 as shown in FIG. It may be opened in the direction of travel, as shown in Figure 2 may be to open any one of the first sphere (11) or the second sphere 12 in a direction perpendicular to the direction of the air.

On the other hand, according to other design conditions, the position of the platinum filter 13, 14 can be partially adjusted to the front / rear, based on the traveling direction of the air.

Although not shown in the drawings for this purpose, two rails are provided on the inner surface of the purification device 10, so that the two rails have positions facing each other.

In addition, one end portion of the platinum filters 13 and 14 may be configured by coupling a wheel rolling along one of the two rails to the shaft.

In addition, the other end of the platinum filter (13, 14) may include a connecting portion having a 'ㅗ' cross-sectional shape. At this time, the horizontal surface of the connecting portion is extended in the downward direction to have a predetermined height, the side wall of the horizontal surface is configured so that two wheels can be rolled along the other one of the two rails, each of the two wheels Is divided into left and right sides.

At this time, the rail for guiding the wheel provided on the horizontal surface of the connecting portion may be configured in the form of '凹' so that the horizontal surface can be inserted and guided. In addition, the rail for guiding the wheel provided on the horizontal surface of the connecting portion may be formed with a fixed groove at a predetermined interval for each side of the inner wall is inserted into the horizontal surface, the fixing groove may be formed in a zigzag direction for the two inner walls. In addition, the fixing groove is formed so that the entire surface is bent to move the wheel.

'의 형상을 갖아 홈부의 개방된 입구가 홈부보다 크기가 작도록 구성할 수 있다.In addition, the vertical plane and the horizontal plane of the connection unit are not integrally formed, and the horizontal plane is formed with a groove for inserting the vertical plane. In this case, the groove portion '

It may have a shape of 'can be configured such that the open inlet of the groove portion is smaller than the groove portion.

And, the end of the vertical surface, the end inserted into the groove portion is configured to have a larger diameter than the other side of the vertical surface, is inserted into the groove portion of the horizontal surface and fixed.

A torsion spring may be provided at an end of the vertical surface, and one end of the torsion spring is fixed to one side of the inlet of the groove, and the other end is fixed to one side of the inner wall of the groove, such that the vertical surface is rotated from the groove of the horizontal plane, Once the external force is removed, it should have elasticity to return to its original position.

According to the configuration as described above, the platinum filter (13, 14) connected to the vertical surface of the connecting portion can be moved before and after a predetermined length in the purification device 10, the wheel formed on the side wall of the horizontal plane during the movement of the rail inner wall Moving along, when entering the fixing groove, the horizontal plane is fixed in a state in which the torsion spring is rotated from the vertical plane by the elasticity of the torsion spring so that the horizontal plane is fixed to the fixing groove unless a separate external force is applied. That is, this state is a state in which the platinum filters 13 and 14 are fixed without moving.

Referring to this, the elasticity of the torsion spring imparts elasticity such that the horizontal plane is not in a straight position from the vertical plane.

Thereafter, when an external force that pulls or pushes the platinum filters 13 and 14 is generated, as the wheel formed on the side wall of the horizontal plane moves along the curved area of the fixing groove, the horizontal plane has a straight direction on the vertical plane again. The horizontal plane is moved along the rail so that the platinum filters 13 and 14 can be moved.

What has been described above with reference to the drawings has been described only the main matters of the present invention, it is apparent that the present invention is not limited to the configuration of the drawings as long as various designs can be made within the technical scope.

10: purifier
11: first sphere
12: second sphere
13: first platinum filter
14: second platinum filter
15: heater

Claims (3)

In the purification device for removing the harmful components contained in the waste gas generated when using as fuel,
The purification device 10,
The first sphere 11 and the second sphere 12 in charge and suction of the waste gas;
A first platinum filter 13 positioned closest to the first sphere 11 to primarily remove harmful components of the waste gas;
A second platinum filter 14 positioned at a next stage of the first platinum filter 13 to secondaryly remove harmful components from the waste gas from which firstly harmful components have been removed through the first platinum filter 13;
Located in the next stage of the second platinum filter 14 includes a heater 15 for applying heat to continue the harmful component removal function of the second platinum filter 14,
The heater 15 is electrically connected to the outside of the purifier 10 to emit heat,
The purification device 10 is composed of a plurality of brackets on the outside one side,
Two rails are provided on the inner surface of the purification device 10, and the two rails have positions facing each other,
One end of the platinum filter (13, 14) is configured by coupling a wheel rolling along any one of the two rails to the shaft on one side,
One side of the other end of the platinum filter (13, 14) includes a connection having a 'ㅗ' cross-sectional shape,
The horizontal surface of the connecting portion extends in the downward direction to have a predetermined height, and the side wall of the horizontal surface is configured to allow two wheels to roll along the other one of the two rails,
Each of the two wheels is divided into left and right sides,
The rail for guiding the wheel provided on the horizontal surface of the connecting portion is configured in the form of '凹' and the horizontal surface is inserted and guided,
Rails for guiding the wheel provided on the horizontal surface of the connecting portion is formed with a fixed groove at a predetermined interval for each side of the inner wall is inserted into the horizontal surface, the fixing groove is formed in a zigzag direction for the two inner walls,
The fixing groove is formed so that the entire surface is bent to move the wheel,
The vertical plane and the horizontal plane of the connection portion are not integrally formed, and the groove has a groove portion for inserting a vertical plane in the horizontal plane, and the groove portion is'

It is configured to have an opening of the groove portion is smaller than the groove portion, the end portion of the vertical surface, the end portion inserted into the groove portion has a larger diameter than the other side of the vertical surface, inserted into the groove portion of the horizontal surface Become fixed,
A torsion spring is provided at an end of the vertical plane, one end of the torsion spring is fixed to one side of the inlet of the groove, and the other end is fixed to one side of the inner wall of the groove, such that the vertical plane is rotated from the groove of the horizontal plane. If it is removed to have the elasticity to return to the original position, waste gas purification device.
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