KR101050497B1 - Pollution gas treatment device - Google Patents

Abstract

There is provided a contaminant gas treatment device capable of efficiently treating contaminated gas containing high concentration dust (DUST) generated in an industry, or harmful gases such as NOx and SOx.

Such a contaminated gas treatment apparatus of the present invention, the apparatus tank member is sprayed and dropped into the processing liquid therein, the contaminated gas flows; And a unit body disposed in the internal processing liquid storage space of the apparatus tank member, and a rotating blade rotatably installed on the unit body to refine the contaminated gas bubbles to increase the contact of the processing liquid with the contaminated gas. It may be configured to include; micro-bubble generating unit.

According to the present invention, the contaminants contained in the contaminated gas by forming a micro-bubble of the contaminated gas of dust or harmful gas flowing into the treatment liquid (contaminant absorption liquid contained in the contaminated gas) circulated inside the tank. By improving the contact of the treatment liquid, the improved effect of ultimately maximizing the treatment efficiency of the polluted gas can be obtained.

Dust Treatment, Hazardous Gas Treatment, Pollutant Gas Treatment, Micro Bubble

Description

Apparatus for Treating Pollution Gas

The present invention relates to a contaminant gas treatment device capable of efficiently treating contaminated gas containing a high concentration of dust (dust) generated in the industry, or harmful gases such as NOx, SOx, and more particularly, which is circulated in a tank. By forming a contaminated gas of dust or harmful gas flowing into the treatment liquid into ultra-fine bubbles, the present invention relates to a contaminated gas treatment apparatus for increasing the contact of the treatment liquid of the contaminants contained in the contaminated gas and ultimately maximizing the treatment efficiency of the polluted gas.

Facilities for the treatment of harmful gases including harmful sulfur components, which are usually generated in various plants, high concentration dust emitted from industrial plants, exhaust gases generated in incinerator facilities, and odor generated in livestock and wastewater treatment plants, for example, desulfurization facilities, Washable dust collectors are known.

For example, a desulfurization plant (FGD) is a plant that removes contaminants in a gas by contacting contaminated gas with circulating water (absorption solution) in a plant tank.

Such a circulating solution is sprayed into the tank of the facility, and contaminant gas or high concentration dust, which enters the tank, comes into contact with the falling circulating solution and absorbs contaminants contained in the gas.

Then, the circulating solution is circulated from the lower settling area of the tank to the upper part of the tank through a pump or the like outside the tank, and is widely sprayed in the tank.

At the same time, the contaminated gas entering the tank is treated while being in contact with the circulating solution sprayed at a high speed inside the tank.

In addition, the inside of such a desulfurization facility may be provided with a multi-stage porous plate that is converted into a turbulent air flow as the gas passes to increase the liquid contact to increase the treatment efficiency.

However, high concentration dust or pollutant gas treatment equipment such as the conventional desulfurization equipment has a limitation in improving the treatment efficiency since the particles or particles themselves do not refine the particle size flowing into the equipment.

Accordingly, the applicant of the present invention to ultra-fine the contaminated gas or high concentration dust flowing into the equipment tank to contact the circulating absorbent liquid to increase the adsorption efficiency of the circulating absorbent liquid of dust or harmful gases such as NOx, SOx, etc. Proposed.

The present invention has been proposed in order to solve the conventional problems as described above, the object of the present invention is to remove the contaminated gas of dust or harmful gas introduced into the treatment liquid (contaminant absorbing liquid contained in the contaminated gas) circulated inside the tank ( The present invention is to provide a pollutant gas treating apparatus that maximizes the pollutant gas treating efficiency by increasing the contact of the treating liquid of the pollutant contained in the polluting gas by forming into micro bubbles.

As a technical aspect for achieving the above object, the present invention, the apparatus tank member in which the processing liquid is sprayed and dropped inside the contaminated gas; And,
Microbubbles provided to refine the contaminated gas bubbles by increasing the contact of the contaminated gas by including a unit body disposed in the internal processing liquid storage space of the apparatus tank member and a rotating blade rotatably installed on the unit body. Generating unit;
It provides a polluted gas treatment apparatus configured to include.

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In addition, the present invention as another technical aspect, the apparatus tank member in which the processing liquid is injected and dropped therein;
An auxiliary tank member which is connected to the apparatus tank member and stores the treated water into which the contaminated gas flows; And,
A contaminated gas including a unit body disposed in any one or both of the internal treatment liquid storage space of the apparatus tank member and the internal treatment water storage space of the auxiliary tank member, and a rotating blade rotatably installed on the unit body. A microbubble generating unit provided to refine the bubbles so as to increase the contact of the contaminated gas with the treated water or the treatment liquid;
It provides a polluted gas treatment apparatus configured to include.

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Preferably, the apparatus tank member is connected to a treatment liquid circulation line so as to enable circulation treatment of the treatment liquid sprayed from the upper portion of the apparatus tank member, and the apparatus tank member is provided with an inlet and an outlet.

More preferably, the apparatus tank member may be further provided with at least one porous plate having holes formed in turbulent flow as the contaminated gas passes therethrough.

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In addition, the unit body is composed of a cylindrical body may be connected to the rotary blade to the drive shaft of the drive motor provided in a sealed state therein.

In this case, the rotating blade may be composed of a plurality of small blades to increase the efficiency of generating micro-bubbles.

Preferably, the unit body has a hollow sealed space is further connected to the floating member floating in the treatment liquid or the treated water, the unit body or floating member may be arranged in conjunction with the device tank member or auxiliary tank.

More preferably, the unit body or the floating member may be arranged to be connected to the apparatus tank member or the auxiliary tank member via a wire, or may be provided to be movable in the apparatus tank member or the auxiliary tank member through a transfer means.

The auxiliary tank member may further include heating means for heating the stored treated water.

According to the contaminant gas treatment apparatus of the present invention, by discharging dust or harmful gas flowing into the absorbent solution circulated in the tank as a high-speed rotating blade with ultra-fine bubbles, the absorption rate of the dust or harmful gas is increased to increase Treat harmful gases such as NOx and SOx with high efficiency.

Therefore, only the cleaner gas (gas) is discharged to the outside, which is not only environmentally friendly, but also improves the treatment efficiency, thereby reducing the unit size of the tank, thereby realizing a reduction in installation cost and shortening of the air. To provide.

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

First, FIG. 1 shows the overall configuration of the pollutant gas treatment apparatus 1 according to the present invention, and FIG. 2 shows the overall configuration of another modification of the apparatus of the present invention shown in FIG.

However, it should be appreciated that in the present invention, the polluted gas (V) means containing contaminated fine particles or gas such as high dust or harmful gas or odor.

For example, as shown in FIG. 1, the pollutant gas treating apparatus 1 of the present invention of the first embodiment has an absorption property in which the treating liquid L, for example, a known pollutant is contacted and absorbed therein. The contaminated gas introduced into the apparatus tank member 10 into which the solution is injected and the contaminated gas V flows, and the processing liquid storage space of the apparatus tank member 10 (eg, the bottom space of the apparatus tank member). It may be configured to include a micro-bubble generating unit 30 provided to implement a micro-bubble to increase the contact with the processing liquid when the rising through the device tank member.

Alternatively, as shown in FIG. 2, the apparatus for treating contaminated gas 1 of the present invention of the second embodiment includes a device tank member 10 in which a processing liquid L is largely injected therein, and the device tank member ( The auxiliary tank member 50 in which the treated water into which the pollutant gas V containing dust or harmful gas is introduced is stored in association with 10), and the processing liquid storage space of the apparatus tank member 10 or the auxiliary tank member ( It includes a micro-bubble generating unit 30 is disposed in any one or all of the treated water storage space of 50) to implement the generation of micro-bubbles of the introduced contaminated gas to increase the contact of the treated water or the treatment liquid of the contaminated gas It is characterized by its configuration.

Therefore, in the contaminated gas treatment apparatus 1 of the first and second embodiments of the present invention shown in Figs. Or flows into the treatment liquid storage space of the auxiliary tank member 50 or first into the treatment water storage space of the auxiliary tank member 50.

1 and 2, in the apparatus of the present invention, the device tank member 10 is a tank member of a vertical structure having a height in the vertical direction.

In particular, such a device tank member 10 is connected to the treatment liquid circulation line 70, and the treatment liquid L sprayed and dropped from the upper portion of the apparatus tank member is circulated in the storage space.

For example, in FIGS. 1 and 2, the circulation line 70 of the apparatus tank member 10 is connected to a pump unit 72 connected to a tank bottom in which the treatment liquid L is stored, and an inner upper portion of the pump unit and the tank member. It may be composed of a circulation pipe 74 connected between the processing liquid injection unit 76 installed.

Therefore, when the processing liquid L stored in the inner bottom side of the apparatus tank member 10 is supplied to the injection unit 76 through the pump unit 72 and the circulation pipe 74, the nozzle of the injection unit 76 ( Through the unsigned), the processing liquid is sprayed and dropped evenly spreading into the tank.

As a result, the pollutant gas (V) flowing into the tank member is absorbed by the falling treatment liquid (L) and the pollutant is processed so that only clean gas is discharged to the outside.

Meanwhile, as shown in FIGS. 1 and 2, the contaminated gas inlet 12 and the outlet 14 may be provided at one lower side and the upper center side of the apparatus tank member 10.

At this time, in the apparatus of the present invention, as shown in Figure 1, the contaminated gas is introduced into the space in which the treatment liquid (L) is stored, which is for the operation of the micro-bubble generating unit 30 to be described later, the inlet of the device tank member The reverse flow prevention tube 18, ie, U-shaped tube, which prevents the backflow of the treatment liquid, may be used.

Of course, this backflow prevention pipe needs to be installed at its highest point at least higher than the level of the processing liquid L in the tank member.

Meanwhile, as illustrated in FIGS. 1 and 2, one or more porous plates 16 may be arranged in multiple stages in the apparatus tank member 10 of the pollutant gas treatment apparatus 1 according to the present invention.

Such porous plates 16 are provided with holes 16a to form turbulence as gas rising from the bottom of the tank member passes, thereby increasing the contact between the gas and the treatment liquid, thereby treating the pollutants contained in the polluted gas. To make it higher.

Meanwhile, in FIG. 2, the auxiliary tank member 50 is connected to the tank member inlet 12 by a connecting pipe 54, and the auxiliary tank member 50 is provided with a polluting gas inlet 52.

Particularly, instead of the treatment liquid L which is purified and sprayed and dropped from the inside, such as the apparatus tank member, the auxiliary tank member 50 is filled with the treated water W that is not circulated and is filled with the treated water storage space. Pollutant gas (V) can be introduced into the.

At this time, although not shown separately in the drawing, the supply tanks for supplying the treatment liquid (L) and the treated water (W), respectively, is connected to the apparatus tank member 10 and the auxiliary tank member 50, of course.

Therefore, in the contaminated gas treatment apparatus 1 of the second embodiment of the present invention shown in FIG. 2, after the contaminated gas passes through the treated water W of the auxiliary tank member, the treatment liquid L is applied to the main apparatus tank member 10. ), Since it requires secondary subtank members, it will be better in terms of pollutant gas treatment efficiency.

Meanwhile, the microbubbles installed in the apparatus tank member 10 of the apparatus of the present invention, or at least one or both of the apparatus tank member 10 and the auxiliary tank member 50, which are schematically illustrated in FIGS. 1 and 2. Specifically, as shown in FIGS. 3 and 4, the generating unit 30 stores the treatment liquid L or the treated water W in the apparatus tank member 10 or the auxiliary tank member 50. It is comprised including the unit body 32 arrange | positioned in space, and the rotating blade 34 rotatably installed in the said unit body 32. As shown in FIG.

At this time, as shown in Figure 3 and 4, the unit body 32 of the microbubble generating unit 30 of the present invention is composed of a cylindrical body and the drive shaft 36a of the drive motor 36 provided in a sealed state therein The rotary blade 34 may be connected to.

Therefore, as shown in FIGS. 1 and 2, when the driving motor 36 of the microbubble generating unit 30 is rotationally driven, the rotary blade 34 rotates at high speed.

As a result, as shown in FIG. 1, the bubbles G of the polluting gas in the processing liquid L are decomposed into fine bubbles G 'by the high-speed rotation of the rotary blade 34, and thus the contamination rising in the processing liquid storage space. The fine bubbles G 'of the gas are treated more contaminants contained in the bubbles of the gas as more processing liquids L' are attached to the micro bubbles G 'than the treatment liquids L contacting the bubbles. To be excellent.

On the other hand, as shown in Figure 4, in the microbubble generating unit 30 of the present invention, the rotating blade 34 is preferably composed of a plurality of small blades (34a) to increase the microbubble generating efficiency. .

That is, as shown in FIGS. 3 and 4, the drive shaft 36a of the drive motor 36 passes through the unit body 32 and the plurality of small blades as the bolts 35b on the rotating plate 35a at the tip of the drive shaft 36. Rotating blades 34 formed with protrusions may be assembled.

Therefore, when the drive motor rotates at a high speed, considerable ultra-fine bubbles (G ′ in FIG. 1) are generated in the treatment liquid L or the treatment water W into which the pollutant gas flows, which rises inside the apparatus tank member. More contact with the treatment liquid results in improved absorption of pollutants in the gas.

Meanwhile, reference numeral 32a in FIGS. 3 and 4 denotes a cover body between the unit body and the rotating blade.

At this time, as shown in Figures 3 and 4, the unit body 32 of the micro-bubble generating unit 30 is connected to the apparatus tank member or the floating member 38, which is hollow-sealed and floated in the treatment liquid or the treated water is connected. At least a portion of the auxiliary tank member may be disposed in a state of being immersed in the storage liquid or the treated water.

On the other hand, the unit body 32 or the microbubble generating unit 30 is connected to the above-mentioned floating member 38 connected thereto by the wire 40 may be disposed inside the device tank member or the auxiliary tank member.

Alternatively, as shown in the right part in Figure 3, the device tank member or auxiliary through the conveying means 44 is connected to the unit body 32 and the lower rotating blade 34 floating to the floating member 38 The tank members 10 and 50 may be configured to be constantly movable.

That is, as shown in FIG. 3, the transfer means 42 has one end connected to the unit body 32 or preferably the floating member 38 of the microbubble generating unit 30 and the device tank member 10. Or a transfer rod (or wire-transfer means provided on both sides) that passes through the sealing unit 42c of the auxiliary tank member 50 and is connected to a horizontal drive cylinder 42b horizontally installed on the apparatus tank member or the auxiliary tank member ( 42a).

Therefore, as the horizontal driving cylinder 42b moves forward or backward, the microbubble generating unit 30 may move in the processing liquid storage space or the processing water storage space, thereby efficiently miniaturizing the bubbles of the contaminated gas. .

Of course, the micro-bubble generating unit 30 of the present invention may be actually arranged in the inside of a very large apparatus tank member or auxiliary tank member.

On the other hand, as shown in Figure 2, the auxiliary tank member 50, the treatment water (W) is stored is heated to vaporize the treated water while allowing the rise of the contaminated gas and the gasification of contaminants, Heating means 90, such as a heater coil, may be further provided in the apparatus of the present invention to increase the efficiency of removing contaminants.

Accordingly, the pollutant gas treatment apparatus 1 of the present invention described above can further purify polluted gas such as high concentration dust, harmful gas, or odor, and discharge only clean gas (gas) to the outside. Of course, it is possible to reduce the unit size of the tank by increasing the treatment efficiency, to provide a significant advantage that enables substantial reduction in equipment construction costs, shortening the air.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be modified and modified in various ways without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 is a block diagram showing a contaminant gas treatment apparatus of a first embodiment according to the present invention

2 is a block diagram showing a contaminant gas treatment apparatus of a second embodiment according to the present invention.

Figure 3 is a block diagram showing a micro-bubble generating unit and the transfer means in the apparatus of the present invention

Figure 4 is a bottom perspective view showing a microbubble generating unit in the apparatus of the present invention

Explanation of symbols on the main parts of the drawings

1 .. Pollutant gas treatment device 10 .... device tank member

12 .... Inlet 14 .... Outlet

16 .... Perforated Plate 30 .... Micro Bubble Generation Unit

32 .... Unit body 34 .... Rotating blade

36 .... drive motor 38 .... floating member

40 .... Wire 42 .... Transport

70 .. Treatment fluid circulation line 90 .... Heating means

Claims (10)

An apparatus tank member 10 into which the treatment liquid L is injected and dropped and the polluted gas V is introduced therein; And, Treatment of contaminated gas by miniaturizing contaminated gas bubbles, including a unit body 32 disposed in the internal processing liquid storage space of the apparatus tank member 10 and a rotating blade 34 rotatably installed on the unit body. A microbubble generating unit 30 provided to increase the liquid contact property; Contaminated gas treatment apparatus configured to include. Apparatus tank member 10 in which the processing liquid L is injected and dropped therein; An auxiliary tank member 50 connected to the apparatus tank member 10 to store the treated water into which the contaminated gas V is introduced; And, A unit body 32 disposed in any one or both of the internal treatment liquid storage space of the apparatus tank member 10 and the internal treatment water storage space of the auxiliary tank member 50, and the unit body rotatably. A microbubble generating unit (30) provided to refine the contaminated gas bubbles by including a rotary blade (34) installed to increase the contact of the treated water or the processing liquid of the contaminated gas; Contaminated gas treatment apparatus configured to include. The method according to claim 1 or 2, A treatment liquid circulation line 70 is connected to the apparatus tank member 10 so as to allow a circulation treatment of the treatment liquid L sprayed and dropped from the upper portion of the apparatus tank member. The apparatus tank member has an inlet 12 and Pollution gas treatment apparatus, characterized in that the outlet 14 is provided. The method of claim 3, The at least one porous plate (16) having a hole (16a) formed in the turbulent flow as the contaminated gas passes through the inside of the apparatus tank member (10), characterized in that the apparatus further comprises. delete The method according to claim 1 or 2 The unit body (32) is a contaminated gas treatment apparatus, characterized in that the rotating blade is connected to the drive shaft (36a) of the drive motor (36) provided in a sealed state inside the cylindrical body. The method according to claim 1 or 2 The rotating blades 34 are polluted gas processing apparatus, characterized in that composed of a plurality of small blades (34a) to increase the efficiency of microbubble generation. The method according to claim 1 or 2 The unit body 32 is provided with a hollow sealed space is further connected to the floating member 38 floating in the treatment liquid or treated water, the unit body or the floating member is disposed in conjunction with the device tank member or auxiliary tank Pollution gas treatment device characterized in that. 9. The unit body or floating member according to claim 8, wherein the unit body or the floating member is connected to the apparatus tank member or the auxiliary tank member via a wire 40, or is movable in the apparatus tank member or the auxiliary tank member through a transfer means 42. Pollution gas treatment device, characterized in that provided. The polluting gas treatment apparatus according to claim 2, wherein the auxiliary tank member (50) further comprises heating means (90) for heating the stored treated water (W).

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