KR20240075455A - Exhaust gas scrubber using double blade - Google Patents

Abstract

The present invention relates to an exhaust gas scrubber using double blades, and more specifically, a cylindrical reactor, an internal rotating shaft forming the axial center of the cylindrical reactor, an upper double blade, a lower double blade, and a mesh rotated by the internal rotating shaft, and By comprising a supply pipe through which the absorbent liquid flows, exhaust gas flows from the bottom of the cylindrical reactor from bottom to top, and the absorbent liquid flows from top to bottom through the supply pipe, thereby causing a purification reaction through contact between the absorbent liquid and the exhaust gas in the mesh. This relates to an exhaust gas scrubber using double blades that can improve the purification efficiency of exhaust gas with a smaller and simpler configuration than conventional exhaust gas scrubbers.

Description

Exhaust gas scrubber using double blades {EXHAUST GAS SCRUBBER USING DOUBLE BLADE}

The present invention relates to an exhaust gas scrubber using double blades, which is a device capable of absorbing and transporting harmful substances in exhaust gas.

Exhaust gas (hereinafter referred to as 'exhaust gas') containing various pollutants such as sulfur oxides (SOx), nitrogen oxides (NOx), and fine dust is emitted from various industrial processes, and the pollutants contained in this exhaust gas are called exhaust gases. It is purified by an exhaust gas treatment device such as a scrubber.

Exhaust gas scrubbers are classified into wet, dry, burn, adsorption, and plasma methods depending on the method of removing pollutants. The wet method, which contacts the process exhaust gas with water, is mainly used. .

As shown in Figure 1, an exhaust gas scrubber using a wet method according to the prior art uses an absorbent liquid (6) to remove contaminants from the exhaust gas stored in the lower tank of the reactor using a pump and an absorbent liquid injection unit ( 1) is supplied from the two absorption areas (3) inside the reactor (5) in the form of a large number of fine droplets at a constant pressure and is removed through the reaction between the absorption liquid and the exhaust gas, and the exhaust gas from which the contaminants have been removed are removed. Moisture is removed through the moisture removal unit (4) and the purified gas is discharged along the discharge unit (7).

In such a conventional exhaust gas scrubber, a considerable amount of pump power is consumed in the process of spraying absorbent liquid to remove pollutants from exhaust gas, and the pressure is increased in the process of removing harmful substances through mixing of exhaust gas and absorbent liquid inside the reactor of the scrubber. Due to loss, a separate exhaust gas blower (2) must be installed to move the exhaust gas.

In addition, in the conventional exhaust gas scrubber, the speed at which fine water droplets in the absorbent liquid absorb harmful substances in the exhaust gas while descending to the lower tank is slow, and the contact path is limited to the height of the scrubber. Therefore, the size of the scrubber must be enlarged to effectively remove pollutants. Since a moisture removal unit (4) to remove moisture from the purified and discharged gas is installed separately at the top of the reactor, the device structure is complicated and its size increases.

Republic of Korea Patent Publication No. 10-2453431

Proposed to solve the above problems, the present invention constructs a mesh with double blades to effectively contact the exhaust gas and the absorbent liquid inside the reactor to effectively absorb harmful substances in the exhaust gas and at the same time absorb the exhaust gas. The purpose is to provide an exhaust gas scrubber using double blades to facilitate the flow of the exhaust gas scrubber.

The exhaust gas scrubber using double blades of the present invention includes a cylindrical reactor, a central internal rotating shaft forming the axial center of the cylindrical reactor, an upper double blade rotated by the internal rotating shaft, a lower double blade, and a mesh.

In the exhaust gas scrubber using the double blade of the present invention, the upper double blade consists of an upper downward blade connected to the inside of the upper rim and an upper upward blade connected to the outside of the upper rim, and the lower double blade is It consists of a lower upward blade connected to the inside of the lower rim and a lower downward blade connected to the outside of the lower rim.

In the exhaust gas scrubber using the double blades of the present invention, the upper double blades, the lower double blades, and the mesh can rotate in the same direction by rotation of the internal rotation axis, which forms a concentric axis.

In the exhaust gas scrubber using a double blade of the present invention, the cylindrical reactor includes a supply pipe through which absorbent liquid flows, the absorbent liquid flows from top to bottom of the cylindrical reactor through the supply pipe, and exhaust gas flows from the bottom of the cylindrical reactor. It flows in from the bottom up.

The absorbent liquid is supplied to the upper downward blade of the upper double blade, and the exhaust gas is supplied to the lower upward blade of the lower double blade.

The exhaust gas scrubber using double blades of the present invention performs a purification reaction through contact between the absorbent liquid and the exhaust gas in the mesh.

In the exhaust gas scrubber using the dual blades of the present invention, the mesh may be located at a certain distance from the upper double blades and the lower double blades, or may be in contact with the upper double blades and the lower double blades.

In the exhaust gas scrubber using a double blade of the present invention, it is preferable that the size of the upper downward blade is smaller than the size of the lower upward blade, and the size of the upper upward blade is larger than the size of the lower downward blade.

Since there is no need for a blower for exhaust gas flow used in conventional exhaust gas scrubbers or a demister to remove moisture in the purified and discharged gas, the configuration is simpler and can be manufactured in a smaller size than conventional exhaust gas scrubbers. do.

In addition, by constructing a rotating body made of mesh between the double blades, the exhaust gas and the absorbent liquid can be brought into effective contact, thereby improving the pollutant absorption efficiency.

Figure 1 is a diagram schematically showing the configuration of a conventional exhaust gas scrubber.
Figure 2 is a configuration diagram of an exhaust gas scrubber using dual blades according to an embodiment of the present invention.
Figure 3 is a view of the upper double blade 20 in the exhaust gas scrubber using double blades according to an embodiment of the present invention.
Figure 4 is a view of the lower double blade 40 in the exhaust gas scrubber using double blades according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached illustration drawings. These embodiments are examples and can be implemented in various different forms by those skilled in the art to which the present invention pertains, so they are described herein. It is not limited to the examples.

Figure 2 is a configuration diagram of an exhaust gas scrubber using dual blades according to an embodiment of the present invention.

As shown in FIG. 2, an exhaust gas scrubber using double blades includes a cylindrical reactor 10, an internal rotating shaft 50 forming the axial center of the cylindrical reactor 10, and an upper portion rotated by the internal rotating shaft 50. A double blade 20, a lower double blade 40, an upper double blade 20, and a mesh 30 located in the middle of the lower double blade 40, an absorbent liquid for removing contaminants from the exhaust gas is applied to the upper double blade 40. It includes a supply pipe 60 that supplies through the blade 20.

The upper double blade 20, the lower double blade 40, and the mesh 30 may rotate in the same direction by rotation of the internal rotation axis 50, which forms a concentric axis.

The exhaust gas scrubber of the present invention consists of two double blades, an upper double blade 20 and a lower double blade 40, and a mesh-shaped mesh between the upper double blade 20 and the lower double blade 40. By rotating the rotating body filled with the mesh 30 together inside the cylindrical reactor 10, the exhaust gas flowing in from the bottom to the top of the cylindrical reactor 10 of the exhaust gas scrubber in the mesh 30 and the cylindrical reactor ( 10) By performing a purification reaction through contact with the absorbent liquid flowing from the top to the bottom, harmful substances can be removed and the flow of exhaust gas can be smoothened.

The supply pipe 60 that supplies the absorbent liquid into the cylindrical reactor 10 is a mesh located at the bottom of the upper double blade 20 while the supplied absorbent liquid falls downward when the absorbent liquid is supplied to the center of the upper double blade 20. As it hits (30), it contacts the exhaust gas flowing into the reactor, absorbs and removes harmful substances, and after being sprayed in all directions, falls below the reactor through the outside of the lower double blade (40).

The exhaust gas flows into the center of the lower double blade 40 and spreads inside the mesh 30 located at the top of the lower double blade 40. After contacting the absorbent liquid and removing harmful substances, the exhaust gas flows into the center of the lower double blade 40. It rises up the reactor through the outside and is discharged.

Figure 3 is a view of the upper double blade 20 in the exhaust gas scrubber using double blades according to an embodiment of the present invention.

As shown in FIG. 3, in the upper double blade 20, an upper downward blade 20B connected to the inner side of the upper rim 71 with respect to the upper rim 71 and located inside the upper rim ( It consists of an upper upward blade (20A) connected to the outside of 71) and located on the outside.

The upper downward blade 20B and the upper upward blade 20A may be manufactured with blades in opposite directions, and as shown in FIG. 3, when the internal rotation axis 50 rotates clockwise, the upper rim The upper upward blade (20A) connected to the outside of (71) and located outside raises the exhaust gas, and the upper downward blade (20B) connected to the inside of the upper rim (71) and located inside the supply pipe ( The absorbent liquid supplied through 60) can be lowered.

In the upper double blade 20, the blade shape, direction, twist angle, etc. are adjusted so that the absorbent liquid is lowered on the upper downward blade 20B and the exhaust gas is raised on the upper upward blade 20A, and the internal rotation axis is adjusted. The direction of rotation of (50) can be adjusted.

Figure 4 is a view of the lower double blade 40 in the exhaust gas scrubber using double blades according to an embodiment of the present invention.

In the lower double blade 40, the lower upward blade 40A is connected to the inner side of the lower rim 72 with respect to the lower rim 72 and is located inside, and the outer connection of the lower rim 72 It consists of a lower downward blade (40B) located on the outside.

The lower upward blade 40A and the lower downward blade 40B may be manufactured with blades in opposite directions, and as shown in FIG. 4, when the internal rotation axis 50 rotates clockwise, the lower rim The lower upward blade 40A, connected to the inside of the lower rim 72 and located inside, raises the exhaust gas, and the lower downward blade 40B, connected to the outside of the lower rim 72 and located outside, raises the mesh 30. The absorbent liquid that comes out through can be lowered.

In the lower double blade 40, adjust the blade shape, direction, twist angle, etc. so that the absorbent liquid falls on the lower downward blade 40B inside and the exhaust gas rises on the lower upward blade 40A, or The rotation direction of the internal rotation shaft 50 may be adjusted.

The absorbent liquid is supplied to the upper downward blade of the upper double blade, and the exhaust gas is supplied to the lower upward blade of the lower double blade.

The rotation of the upper double blade 20 and the lower double blade 40 is performed simultaneously, and the actuator can be installed inside or outside the scrubber to rotate the upper double blade 20 and the lower double blade 40. there is.

In the upper double blade 20 and the lower double blade 40, the size of the upper downward blade 20B is smaller than the size of the lower upward blade 40A, and the size of the upper upward blade 20A is smaller than the size of the lower upward blade 40A. It is formed larger than the size of the downward blade (40B).

The mesh 30 of the exhaust gas scrubber using double blades of the present invention is composed of a mesh shape, and the mesh 30 is positioned at a certain distance between the upper double blades 20 and the lower double blades 40. Or, it may be in contact with the upper double blade 20 and the lower double blade 40.

The mesh 30 rotates with the upper double blade 20 and the lower double blade 40, and the absorbent liquid is sprayed evenly over the entire mesh 30 as fine water droplets to descend, and the mesh 30 is lowered through the lower double blade 40. It comes into contact with the exhaust gas transported to (30) and absorbs harmful substances in the exhaust gas.

Looking at the reaction process between the absorbent liquid and the exhaust gas in the mesh 30 in detail, as the mesh 30 rotates together with the upper double blade 20 and the lower double blade 40, the upper double blade 20 and the lower double blade Due to the blade shape of (40), the absorbent liquid, which has a relatively large specific gravity compared to the exhaust gas, is absorbed by gravity, which is a downward force from the upper downward blade (20B), which is the central part of the upper double blade (20), and the rotating mesh (30). Since the outward force due to centrifugal force is mainly applied, it rotates in a spiral shape and moves outward to the lower part and falls down through the lower downward blade (40B) of the lower double blade (40). Exhaust gas, which has a small specific gravity, rotates spirally from the center through the lower upward blade (40A) of the lower double blade (40) and moves outward to the upper part due to the shape of the upper double blade (20) and lower double blade (40). .

That is, in the case of an exhaust gas scrubber of the same size, the moving path becomes much longer as the absorption liquid and the exhaust gas rotate spirally within the mesh 30 compared to a conventional exhaust gas scrubber, and the contact occurs more evenly, thereby increasing the absorption efficiency.

The exhaust gas scrubber using the double blades of the present invention has the diameter size and mesh (30) of the upper double blades (20) and lower blades (40) so that exhaust gas purification can be effectively performed according to characteristics such as exhaust gas flow rate and pollutant concentration. ), the density and height of the blade, the shape of the blade, the number of blades, and the twist angle can be optimized for design, or the rotation of the dual blades can be selectively operated at constant speed or variable speed.

Although not shown, the installation and arrangement of support structures and bearings for supporting the upper double blade 20, lower blade 40, and mesh 30 may be configured according to the user's needs.

After the absorption fluid and the exhaust gas movement path intersect and come into contact by rotation in the mesh 30, the moisture with a relatively large specific gravity is separated again toward the inner wall of the cylindrical reactor 10 by centrifugal force to form the lower double blade 40. Since it falls down through the lower downward blade (40B), there is no need for a separate moisture demister.

The mesh 30 effectively mixes the absorbent liquid and the exhaust gas, and at the same time, the exhaust gas is transported upward by the upper double blade 20 and the lower double blade 40, so there is no need to install a separate blower.

As seen above, by using the exhaust gas scrubber of the present invention, the pollutant absorption performance is equal to or improved as that of the existing exhaust gas scrubber, and a much smaller exhaust gas scrubber can be manufactured with a simple structure.

1: Absorbent liquid injection part
2: Exhaust gas blower
3: absorption area
4: Moisture removal unit
5: reactor
6: absorbent liquid
7: discharge part
10: Cylindrical reactor
20: upper double blade
20A: Upper upward blade
20B: Upper downward blade
30: mesh
40: Lower double blade
40A: Lower upward blade
40B: Lower downward blade
50: Internal rotation axis
60: supply pipe
71: Upper rim
72: Lower rim

Claims (10)

Cylindrical reactor;
an internal rotating shaft forming the axial center of the cylindrical reactor;
Including an upper double blade, a lower double blade, and a mesh rotated by the internal rotation axis,
The upper double blade is,
an upper downward blade connected to the inside of the upper rim and
It consists of an upper upward blade connected to the outside of the upper rim,
The lower double blade is,
A lower upward blade connected to the inside of the lower rim and
It consists of a lower downward blade connected to the outside of the lower rim,
The mesh is an exhaust gas scrubber using double blades located between the upper double blades and the lower double blades. According to paragraph 1,
The upper double blade, the lower double blade, and the mesh form a concentric axis, and an exhaust gas scrubber using double blades that rotate in the same direction by rotation of the internal rotation shaft. According to paragraph 1,
The cylindrical reactor includes a supply pipe through which the absorption liquid flows,
An exhaust gas scrubber using double blades through which exhaust gas flows from bottom to top of the cylindrical reactor. According to paragraph 3,
An exhaust gas scrubber using double blades in which the absorbent liquid flows from the top to the bottom of the cylindrical reactor through the supply pipe, and a purification reaction occurs through contact between the absorbent liquid and the exhaust gas in the mesh. According to paragraph 3,
An exhaust gas scrubber using double blades in which the absorbent liquid is supplied to the upper downward blade of the upper double blade. According to paragraph 3,
An exhaust gas scrubber using double blades in which the exhaust gas is supplied to the lower upward blade of the lower double blade. According to paragraph 1,
The mesh is an exhaust gas scrubber using double blades spaced apart from the upper double blade and the lower double blade by a certain distance. According to paragraph 1,
The mesh is an exhaust gas scrubber using double blades in contact with the upper double blade and the lower double blade. According to paragraph 1,
An exhaust gas scrubber using double blades, characterized in that the size of the upper downward blade is smaller than the size of the lower upward blade. According to paragraph 1,
An exhaust gas scrubber using double blades, characterized in that the size of the upper upward blade is larger than the size of the lower downward blade.