KR20120023197A - Device for pre-treating contaminated air and deordorizing system using the same - Google Patents

Abstract

PURPOSE: A polluted air pre-treating apparatus and a deodorizing system using the same are provided to effectively purify viscous polluted air of high temperature and humidity based on condensing seeds and multi-staged pipe shaped cooling unit. CONSTITUTION: A polluted air pre-treating apparatus(100) includes a duct and a condensing seed supplying unit(110). Polluted air introduced through the duct. The condensing seeds are supplied to the duct by the condensing seed supplying unit. The apparatus further includes cyclone particulate dust collector(120) in connection with the dust. The condensing seed are one of ceramic powder, carbon powder, briquette powder, yellow soil, NaCl powder, silver iodide powder, condensed gas, and ions. The apparatus further includes a multi-staged pipe shaped cooling unit(140) and a water storing bath(130).

Description

Contaminated air pretreatment device and deodorization system using same {DEVICE FOR PRE-TREATING CONTAMINATED AIR AND DEORDORIZING SYSTEM USING THE SAME}

The present invention relates to a contaminated air pretreatment apparatus and a deodorization system using the same, and more particularly, to a contaminated air pretreatment apparatus and a deodorization system using the same, which can purify a viscous contaminated air of high temperature and high humidity.

Recently, a great deal of garbage and wastes are generated as by-products of continuous industrial development. Various types of treatment methods have been prepared, but most of them are causing sludge.

Sludge is a secondary pollutant generated when removing particulates, colloids, or dissolved pollutants contained in various wastes and wastes. The sludge is characterized by high viscosity, high moisture content, and odor. Therefore, in the treatment of such sludge, a method of drying the sludge by injecting high temperature heat and then burning it or recycling it as a heat source is used.

In this case, the sludge is dried using the sludge drying apparatus 10 as shown in FIG.

Specifically, a burner (not shown) installed at the top, bottom, or both ends of the cylindrical drum 11 when the sludge (not shown) injected into the upper portion of the cylindrical drum 11 is moved downward by the rotation of the screw 12. The high temperature combustion gas G is supplied and dried.

Here, when the sludge is dried by the above-described method, viscous water vapor of 100 ° C. or more is generated while the water contained in the sludge evaporates. Such water vapor contains contaminated particles in the same manner as the sludge, but only changes in the state from the liquid phase to the gaseous phase. Therefore, if the steam that is generated during the drying of the sludge is not properly treated, various pathogens, odors, etc. are released into the atmosphere, which not only adversely affects the human body but also causes environmental pollution.

In order to solve the above-described problems, a method of directly purifying water vapor generated from the sludge drying apparatus may be considered. However, since the water vapor generated during the drying of the sludge has a high viscosity in the state of high temperature, high humidity as described above, when it is injected directly into the deodorizing device it is adsorbed inside the deodorizing device can not be properly purified.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and a contaminated air pretreatment apparatus capable of condensing and cooling viscous contaminated air having a high temperature of about 50 ° C. or higher and a relative humidity close to 100%, and a deodorization comprising the same. The purpose is to provide a system.

As a means for solving the above technical problem,

The present invention is a device for pretreatment of viscous contaminated air of high temperature and high humidity, comprising a duct into which the contaminated air flows and a condensed seed supply device for supplying condensed seeds to the duct. Provide a device.

In this case, the contaminated air pretreatment device may further comprise a cyclone particulate collector connected to the duct.

In this case, the condensation seed may be any one selected from ceramic powder, carbon powder, briquette powder, loess, NaCl powder, silver iodide powder, condensation gas and ionic flow.

In this case, the contaminated air pretreatment device may further include a multistage pipeline type cooling device connected to the cyclone particulate dust collector and a storage tank installed below the multistage pipeline type cooling device. have.

In this case, the multi-stage pipeline cooling device may be a water cooling device or an air cooling device.

In this case, the multistage pipeline type cooling device may be installed vertically.

In this case, the contaminated air pretreatment device may further comprise a fan for forming a negative pressure in the storage tank.

In addition, the present invention provides a deodorizing system, characterized in that it comprises a main deodorizing device installed behind the polluted air pretreatment device and the polluted air pretreatment device.

In this case, the main deodorizer is passed through a pre-treatment unit for filtering particulate contaminants in the contaminated air, a dry oxidation reaction unit for purifying the contaminated air passed through the pre-treatment unit by an oxidation reaction of a photocatalyst, and the dry oxidation reaction unit. It may comprise a wet oxidation reaction unit for purifying the contaminated air by water and photocatalytic oxidation reaction.

In this case, the deodorization system may be configured to further include a cooling device or a heating coil unit which is installed in the rear of the main deodorizing device to remove the white smoke.

According to the present invention, high temperature, high humidity, viscous contaminated air can be condensed using a powder type condensation seed, gas phase condensation seed, or ionized ozone, etc. Can be made with

Also, fresh air can be provided by completely purifying polluted air from which moisture and viscosity have been removed by pretreatment using a main deodorizer.

1 is a perspective view of a general sludge drying apparatus,
2 is a conceptual diagram of a contaminated air pretreatment apparatus and a deodorization system using the same according to a preferred embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

First, the present invention provides a contaminated air pretreatment apparatus for removing contaminant particles by condensing high temperature and high humidity viscous contaminated air generated in a waste treatment facility such as a sludge drying apparatus, and the contaminated air pretreatment apparatus is coupled to a main deodorizer. It is roughly classified as a type of deodorizing system, which will be described below in order.

2 is a conceptual diagram of a contaminated air pretreatment apparatus and a deodorization system using the same according to a preferred embodiment of the present invention.

Referring to FIG. 2, the contaminated air pretreatment apparatus 100 according to a preferred embodiment of the present invention includes a duct (not shown) and a condensation seed supply apparatus 110.

Specifically, the duct is coupled to the chimney or the exhaust pipe (not shown) of the waste treatment facility in order to react with the condensation seeds by introducing high-temperature, high-humidity viscous air generated from the waste treatment facility such as a sludge drying apparatus. do.

Next, the condensation seed supply device 110 is installed using a separate pipe in the duct in a configuration for supplying the condensation seed to the duct. In this case, the condensation seed is supplied into the duct by the blower 111 to adsorb the contaminants. In the present invention, the type of the condensation seed supply device 110 is not particularly limited, and various supply devices of a known type may be used.

On the other hand, the condensation seed in the present invention is excellent in water absorption and condensation, such as ceramic powder, carbon powder, briquette powder, loess, NaCl powder, silver iodide powder, condensation gas, ionic flow and condensation, and specific surface density It is preferable to select and use among the large fine particles.

The contaminated air pretreatment apparatus 100 configured as described above may further include a cyclone particulate dust collector 120. Specifically, the cyclone particulate dust collector 120 is continuously installed in the duct to separate the particles grown by the reaction of the condensation seed and the pollutant.

In this case, the particles separated from the cyclone particulate collector 120 are discharged to the bottom and collected in the storage tank 130.

On the other hand, the contaminated air pretreatment device 100 may be additionally provided with a multi-stage pipeline type cooling device 140. Specifically, the multi-stage pipe-type cooling device 140 is connected to the cyclone particulate dust collector 120 in a configuration for cooling the contaminated air in a high temperature state.

In this case, a distribution chamber 150 is installed between the cyclone particulate dust collector 120 and the multistage pipe type cooling device 140 to form the contaminated air in the pipes 141 forming the multistage pipe type cooling device 140. To distribute.

In the present invention, the multistage pipe-type cooling device 140 is installed vertically. That is, the viscosity particles remaining in the contaminated air are minimized to adhere to the inside of the pipe 141.

On the other hand, it is preferable that a plurality of cooling fins 142 are formed inside the pipe 141. This is because the cooling fin 142 can improve the cooling effect by widening the contact area with the contaminated air.

The multi-stage pipe-type cooling device 140 described above may be configured as a water-cooled, air-cooled or water-cooled air-cooled mixture as needed. In other words, water-cooling is applied in summer with high temperature, and air-cooling is applied in winter with low temperature.

Subsequently, the liquid contaminants and particulate contaminants condensed by the multi-stage pipe-type cooling device 140 are collected into the storage tank 130, and the remaining contaminated air flows into the main deodorizing device 200 which will be described later. Here, the liquid contaminants collected in the storage tank 130 is discharged to the outside by the drain pump 131, the particulate contaminants with the particles discharged from the cyclone dust collector 120, as described above It is removed by the dust collector 160 installed on one side of the storage tank 130. As such, the present invention can maximize the purification and deodorization performance by being configured to treat the gas phase material and the liquid and solid materials separated from each other.

On the other hand, since the negative pressure must be formed in the storage tank 130 to separate by the state of the material as described above, the fan 210 is installed between the polluted air pretreatment device 100 and the main deodorizing device 200. desirable.

The polluted air pretreatment apparatus according to the preferred embodiment of the present invention has been described above. The following describes the deodorization system according to a preferred embodiment of the present invention.

As shown in FIG. 2, the deodorization system 300 according to the preferred embodiment of the present invention includes the contaminated air pretreatment device 100 and the main deodorization device 200. Since the contaminated air pretreatment apparatus 100 has been described above, the main deodorization apparatus 200 will be described in detail below.

The main deodorizing device 200 is installed at the rear of the contaminated air pretreatment device 100 in order to finally clean the contaminated air cooled in the contaminated air pretreatment device 100 and the viscosity is removed.

Specifically, the main deodorizer 200 is a pretreatment unit 220 for filtering particulate contaminants in the polluted air discharged from the multi-stage pipe type cooling device 140, and the contamination passed through the pretreatment unit 220. Dry oxidation reaction unit 230 for purifying the air by the oxidation reaction of the photocatalyst and wet air that is purified by acidifying the contaminated air passed through the dry oxidation reaction unit 230 by the oxidation reaction of water and a photocatalyst supported precious metal such as TiO ₂ It may be configured to include an oxidation reaction unit 240.

On the other hand, it is preferable to install the cooling device 250 or the heating coil unit 260 in the rear of the main deodorizing device 200 configured as described above to minimize the white smoke that can be generated as a residue.

The configuration of the present invention has been described above in detail with reference to the drawings. Hereinafter will be described the operation of the present invention.

First, when high-temperature, high-humidity, viscous polluted air discharged from the waste treatment facility is introduced through the duct, the condensed seed is supplied into the duct from the condensed seed supply device 110 to condense the polluted air.

Next, the polluted air is introduced into the cyclone dust collector 120 to filter the condensed particulate contaminants. The particulate contaminants thus filtered are discharged to the bottom and collected in the storage tank 130. Meanwhile, the gaseous contaminants continue to flow into the distribution chamber 150 and are distributed to the multi-stage pipeline type cooling device 140 and then cooled. In this case, the moisture contained in the contaminated air is condensed by cooling and collected in the storage tank 130 together with the particulate contaminants, and once again purified through the dust collector 160 and then discharged to the outside.

Thereafter, the pollutants in the gas phase are introduced into the main deodorizer 200 and filtered by the pretreatment unit 220, and then purified through the dry oxidation unit 230 and the wet oxidation unit 240 to be atmosphere. To the final discharge.

Preferred embodiments of the present invention have been described in detail above with reference to the drawings. The description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the scope of the present invention is represented by the following claims rather than the detailed description, and all changes or modifications derived from the meaning, scope, and equivalent concepts of the claims are included in the scope of the present invention. Should be interpreted as

100: contaminated air pretreatment device 110: condensation seed supply device
111 blower 120 cyclone dust collector
130: storage tank 131: drainage pump
140: multistage pipeline type cooling device 141: pipe
142: cooling fin 150: distribution chamber
160: dust collector 200: main deodorizing device
210: fan 220: pretreatment unit
230: dry oxidation reaction unit 240: wet oxidation reaction unit
250: cooling device 260: heating coil part
300: Deodorization System

Claims (10)

A device for pretreatment of viscous contaminated air of high temperature and high humidity,
A duct through which the contaminated air flows; And
A condensation seed supply device for supplying the condensation seed to the duct;
Polluted air pretreatment device comprising a. The method of claim 1,
The contaminated air pretreatment device,
Polluted air pretreatment device further comprises a cyclone particulate dust collector connected to the duct. The method according to claim 1 or 2,
The condensation seed is a contaminated air pretreatment device, characterized in that any one selected from ceramic powder, carbon powder, briquette powder, loess, NaCl powder, silver iodide powder, condensation gas, ionic flow. The method of claim 2,
The contaminated air pretreatment device,
A multistage pipeline type cooling device connected to the cyclone particulate dust collector for distributing and cooling the contaminated air; And
A storage tank installed below the multi-stage pipe-type cooling device;
Polluted air pretreatment device characterized in that it further comprises. The method of claim 4, wherein
The multi-stage pipeline cooling device is a contaminated air pretreatment device, characterized in that the water-cooled or air-cooled cooling device. The method of claim 4, wherein
The multi-stage pipe-type cooling device is a contaminated air pre-treatment device, characterized in that installed vertically. The method according to any one of claims 4 to 6,
The contaminated air pretreatment device,
Pollution air pre-treatment apparatus further comprises a fan for forming a negative pressure in the storage tank. The polluted air pretreatment apparatus in any one of Claims 1-7; And
A main deodorizer installed behind the polluted air pretreatment device;
Deodorizing system, characterized in that comprises a. The method of claim 8,
The main deodorizing device,
A pretreatment unit for filtering particulate contaminants in the contaminated air;
A dry oxidation reaction unit for purifying the contaminated air passing through the pretreatment unit by an oxidation reaction of the photocatalyst; And
A wet oxidation reaction unit for purifying the contaminated air passing through the dry oxidation reaction unit with water and a photocatalytic oxidation reaction;
Deodorizing system, characterized in that comprises a. The method of claim 8,
The deodorization system,
Deodorization system characterized in that it further comprises a cooling device or a heating coil unit installed in the rear of the main deodorizer to remove the white smoke.

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