KR102178669B1 - Treating tank for harmful gases - Google Patents

Abstract

The present invention relates to a harmful gas treating apparatus comprising: a main body (2) having an inlet port (4) formed at a lower part and an outlet port (6) formed at an upper end; a collection tank (8) formed at a lower part inside the main body (2); a gas-liquid contact media layer (10) disposed on an upper part of the collection tank (8) of the main body (2); a cleaning liquid spray nozzle (14) disposed on an upper part of the gas-liquid contact media layer (10). In the harmful gas treating apparatus, a blocking ring (20) blocking the flow of harmful gas flowing upwardly close to an inner circumferential surface of the main body (2) protrudes inwardly at the inner circumference of the main body (2) at the lower part or the upper part adjacent to the gas-liquid contact media layer (10).

Description

Treatment tank for harmful gases}

The present invention relates to a noxious gas treatment device, and in more detail, it is possible to prevent a decrease in treatment efficiency due to the toxic gas passing through the device body being pulled to the edge of the body by centrifugal force by a simple structure and to increase treatment efficiency. It relates to a new structure of a hazardous gas treatment apparatus equipped with additional equipment.

Hazardous gases emitted from various industrial facilities including plating factories, livestock houses, and food waste include nitrogen oxides (NOx), harmful acid gases such as hydrochloric acid, hydrofluoric acid, sulfuric acid, sulfurous acid gas, and various other harmful components. When these harmful components are released into the atmosphere, they pollute the atmospheric environment and have a harmful effect on human health. To prevent the release of such harmful gases, harmful gas components are removed by passing harmful gas through a harmful gas treatment facility such as a scrubber. Is done. These scrubbers are introduced to the bottom of the tower-type device body and discharged to the top outlet, while spraying pure water or a cleaning solution containing agents such as oxidizing or reducing agents into the harmful gas through the cleaning liquid spray nozzle installed in the body to capture harmful gas components. Or neutralization treatment, but by filling the treatment tank with media for gas-liquid contact such as polling of various shapes and materials so that noxious gas and cleaning liquid are in good contact with each other, harmful gas and cleaning liquid are brought into smooth contact with each other in this media. It promotes contact and reaction.

However, the body of such a conventional scrubber is generally manufactured in the form of a cylindrical tower, and harmful gas is introduced into the inlet at the bottom of the body by a fan, and flows while forming an upward airflow toward the outlet at the top. Is generally forcibly transferred by a fan or blower installed in the exhaust duct, and while turning in a cylindrical treatment tank, it is pulled toward the edge of the body by centrifugal force and rises. Accordingly, the media disposed at the edge of the main body takes more load than the media disposed in the center. In addition, at the edge of the main body where harmful gas intensively flows, the injection nozzle is not sufficiently arranged relative to the amount of the flow of the harmful gas, so that the cleaning liquid cannot sufficiently contact the harmful gas, and thus, the harmful gas that has not been properly treated passes through the scrubber as it is. Therefore, the possibility of being discharged is high, and there is a problem that the treatment performance of the harmful gas is not satisfactory.

Domestic Patent Registration No. 10-1478973 (2014.12.29.)

The present invention has been proposed by focusing on the problems of the above-described harmful gas treatment apparatus, and the present invention has a simple structure to reduce treatment efficiency due to the toxic gas passing through the apparatus main body being pulled to the edge of the main body by centrifugal force. It is intended to provide a new structure of a harmful gas treatment device equipped with additional facilities that can prevent and increase treatment efficiency by cooling or electrolyzing treated water.

According to one feature of the present invention, a main body 2 having a harmful gas inlet 4 formed at the lower portion and an outlet 6 formed at the upper portion, and a collection tank formed in the inner lower part of the main body 2 to collect treated water (8), at least one of the gas-liquid contact media layer 10, which is disposed above the collection tank 8 of the main body 2 and is filled with the gas-liquid contact media 12, and the gas-liquid contact media layer 10 In the noxious gas treatment apparatus comprising a cleaning liquid injection nozzle (14) disposed at the top and spraying a cleaning liquid containing pure water or an oxidizing or reducing agent supplied through the supply pipe (16) from the collection tank (8), the gas liquid The gas-liquid contact bonding layer 10 is mounted and supported at the inner circumference of the main body 2 on the lower or upper side adjacent to the contact media layer 10, and the flow of harmful gas flowing upward close to the inner circumferential surface of the main body 2 A blocking ring 20 is provided to protrude inward, and a DC electrode plate 42 for electrolyzing harmful gas components contained in the established treated water is installed in the collection tank 8. There is provided a harmful gas treatment device.

According to another feature of the present invention, there is provided a harmful gas treatment apparatus characterized in that a cooler 30 capable of lowering the temperature of the collected treated water is installed in the collection tank 8.

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According to the present invention, the harmful gas in which the gas-liquid contact media layer 10 and the cleaning liquid injection nozzle 14 are formed inside the main body 2 of the harmful gas treatment apparatus having an inlet 4 at the lower and an outlet 6 at the upper part. In the treatment apparatus, the gas-liquid contact media layer 10 is mounted on the inner circumference of the main body 2 below the gas-liquid contact media layer 10 while supporting the gas-liquid contact media layer 10 and flowing upwardly close to the inner circumferential surface of the main body 2 By protruding inwardly the blocking ring 20 that blocks the flow of gas, the harmful gas flowing upward in the device body 2 is pulled to the edge by the centrifugal force, so that the cleaning liquid sprayed from the cleaning liquid spray nozzle 14 is evenly distributed to the harmful gas. It is possible to prevent deterioration in treatment efficiency due to insufficient spraying or an increase in the load of the gas-liquid contact media disposed at the edge, and the media cannot perform the gas-liquid contact relatively uniformly. In addition, by arranging such a blocking ring 20 to protrude inwardly under the gas-liquid contact media layer 10 so as to mount and support the gas-liquid contact media layer 10, in the case of manufacturing the device of the present invention, the blocking ring ( After welding 20) to the inner circumferential surface of the main body 2, the gas-liquid contact media layer 10 can be simply mounted thereon to manufacture, simplifying the structure of the main body of the device, making the construction work in the field easier.

In addition, according to the present invention, by installing the cooler 30 in the collecting tank 8 under the main body 2, most of the harmful gases are heated to a high temperature by combustion or chemical reaction in the previous stage. The cleaning liquid in contact with the harmful gas is also heated to a temperature higher than a suitable temperature for neutralizing the harmful gas through oxidation or reduction, so that the treatment efficiency of the harmful gas is optimally maintained by cooling the cooler 30.

In addition, according to the present invention, a direct current electrode plate 42 for electrolysis is installed in the collection tank 8 of the main body 2, so that the harmful components contained by washing in the cleaning liquid can be removed by electrolysis according to the harmful gas components. If possible, by additionally removing through electrolysis, components of harmful gases can be more effectively removed, and secondary pollution due to the release of harmful components remaining when the treated water is discharged can be suppressed as much as possible.
In addition, by installing the direct current electrode plate 42 for electrolysis in the collection tank 8 of the main body 2, if the harmful gas treatment device is operated periodically or intermittently, for example, a plant generating harmful gas is In case that no harmful gas is generated at night because it is operated only during the day and not at night, the electrolysis device is continuously operated without stopping at night when the spraying operation of the washing water stops, and the treated water in the collection tank 8 is stored at night. By removing the contained harmful components by electrolysis, it is possible to make every effort to treat harmful gases.

1 is a cross-sectional view of a preferred embodiment of the present invention
2 is a cross-sectional view of the other side of the embodiment
3 is a plan cross-sectional view taken along line aa of FIG. 1

Hereinafter, a preferred embodiment of the present invention will be described with reference to the drawings. 1 is a cross-sectional view of one side of the embodiment of the present invention, FIG. 2 is a cross-sectional view of the other side, and FIG. 3 is a cross-sectional plan view taken along line a-a of FIG. As shown, according to the present invention, an inlet 4 through which a duct through which a toxic gas is introduced is connected through a turbo fan 3 is disposed at the lower one side of the device body 2 in the form of a cylindrical tower, and a diameter at the top of the device The outlet 6 is formed through the narrowing stack 7.

A collection tank 8 in which the cleaning liquid sprayed from the cleaning liquid injection nozzle 14 at the top is in contact with the harmful gas and flows down is disposed in the lower part of the apparatus main body 2. In this collection tank 8, water or a cleaning solution in which a chemical such as an oxidizing agent or a reducing agent is mixed with water flows down and is stored. A drain pipe 9 is connected to one side of the lower end of the collection tank 8. And the gas-liquid contact media layer 10 filled with a gas-liquid contact media such as polling made of a predetermined shape and material in order to increase the contact between the sprayed cleaning liquid and the harmful gas on the top of the collection tank 8 in the main body 2 These are spaced up and down and arranged in two stages. Preferably, the gas-liquid contact media layer 10 includes a grating 11 having a through hole so that exhaust gas can pass therethrough, and the gas-liquid contact media 12 is filled on the grating 11.

In addition, on the upper part of each gas-liquid contact media layer 10, a washing liquid injection nozzle 14 connected through the supply pipe 16 from the lower collecting tank 8 is horizontally extended. The cleaning liquid injection nozzle 14 is disposed above the gas-liquid contact media layer 10 to spray the cleaning liquid downward, but if necessary, the upward injection nozzle 15 is disposed under the gas-liquid contact media layer 10 The cleaning liquid is also sprayed upward toward the gas-liquid contact media layer 10. In addition, a demister 18 filled in the grating 11 is disposed above the main body 2 and below the stack 7 to remove droplets from the exhaust gas discharged. Meanwhile, a PHIC 19 for measuring or adjusting the pH of the collected cleaning liquid is provided at one side of the collection tank 8.

According to a preferred embodiment of the present invention, a blocking ring 20 having a predetermined width in a radial direction is provided at an inner peripheral portion of the main body 2 under the gas-liquid contact media layer 10 so as to protrude inward. The blocking ring 20 is mounted and supported by the gas-liquid contact media layer 10 and serves to block the flow of harmful gas flowing upwardly close to the inner circumferential surface of the main body 20. The standard of the blocking ring 20 is manufactured in accordance with the standard of the device main body 2 and the width of the blocking ring 20 is about 100 mm to 300 mm. Accordingly, the harmful gas that is introduced into the lower part of the main body 20 and is pulled to the edge by the centrifugal force, and the harmful gas that is about to rise, hits the blocking ring 20 and is guided in the horizontal direction, so that the harmful gas flows toward the edge of the gas-liquid contact media. In order to prevent insufficient contact with the cleaning liquid, the treatment efficiency of harmful gases is improved accordingly.

In addition, according to the present invention, since the blocking ring 20 is disposed below the gas-liquid contact media layer 10 to mount and support the gas-liquid contact media layer 10, the blocking ring 20 is welded to the body 2 After the grating 11 is mounted thereon, and the gas-liquid contact media is formed on the grating 11 by filling the gas-liquid contact media layer 10, the construction of the gas-liquid contact media layer 10 is possible. And construction is easy.

Further, according to the present invention, a cooler 30 is installed in the lower collecting tank 8 of the main body 2 to lower the temperature of the collected treated water. The cooler 30 also includes a cleaning liquid that comes into contact with the high-temperature harmful gas when the harmful gas flowing through the inlet 4 of the device is introduced into the device body 2 at a high temperature through combustion or chemical reaction. Treatment efficiency of harmful gases can be further improved by appropriately cooling the treated water in the collection tank 8, that is, the temperature of the cleaning liquid, to a suitable temperature so as not to be higher than the temperature suitable for reaction with the oxidizing agent or reducing agent.

Further, according to the present invention, a direct current electrode plate 42 for electrolysis is installed in the collection tank 8 of the main body 2, and a direct current is applied to the direct current electrode plate 42 outside the main body 2 A rectifying power supply unit 44 is disposed. Accordingly, in the case of harmful gases that can be removed by electrolysis among the harmful components contained in the cleaning liquid by being washed in the cleaning liquid, the harmful components contained in the cleaning liquid are additionally removed through electrolysis to remain when the treated water is discharged. Secondary pollution due to release of harmful components can be suppressed as much as possible.
In addition, by installing the direct current electrode plate 42 for electrolysis in the collection tank 8 of the main body 2, when the harmful gas treatment device is operated periodically or intermittently, for example, of a plant generating harmful gas. If the operation is performed during the day and the operation is stopped at night and no harmful gas is supplied, the electrolysis device is continuously operated without stopping the operation of the electrolysis device at night when the spraying operation of the washing weight stops, and the treated water in the collection tank 8 By removing the harmful components contained in the electrolysis by electrolysis, it is possible to make more thorough treatment of the harmful gas.

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Claims (3)

The main body 2 is formed with a harmful gas inlet 4 at the bottom and an outlet 6 at the top, a collection tank 8 formed in the lower part of the main body 2 and collecting treated water, and the main body ( At least one gas-liquid contact media layer 10 is disposed above the collection tank 8 of 2) and is filled with the gas-liquid contact media 12, and the gas-liquid contact media layer 10 is disposed above the collection tank ( In the noxious gas treatment apparatus comprising a cleaning liquid spray nozzle 14 for spraying pure water supplied through the supply pipe 16 from 8) or a cleaning liquid containing an oxidizing or reducing agent, the gas-liquid contact media layer 10 The gas-liquid contact media layer 10 is mounted and supported on the inner circumference of the main body 2 at the lower or upper part, and a blocking ring 20 blocks the flow of harmful gas flowing upwards close to the inner circumferential surface of the main body 2 It is provided to protrude inward, and a DC electrode plate 42 for electrolyzing harmful gas components contained in the collected treated water is installed in the collection tank 8. The apparatus of claim 1, wherein a cooler (30) capable of lowering the temperature of the collected treated water is installed in the collection tank (8).
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