KR19980063478A - Exhaust gas treatment system - Google Patents

Abstract

It is an object of the present invention to provide an exhaust gas treatment apparatus capable of removing white smoke (steam) in exhaust gas in a simple manner and at the same time reducing harmful gas contained in exhaust gas and odor of emitted exhaust gas.

The exhaust gas sent from the jet scrubber 2 of the exhaust gas treatment device through the gas-liquid separation tank 4 passes through the shower 12 of the liquid, and then passes between the ceramic particles 9 and is then discharged into the atmosphere.

Description

Exhaust gas treatment system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exhaust gas treating apparatus used in an incinerator and the like, and more particularly to an exhaust gas treating apparatus for removing white smoke from exhaust gas containing white smoke (steam).

Conventionally, the exhaust gas treating apparatus guides the exhaust gas sent from the incinerator outside the drawing through the exhaust gas introduction pipe 1 into the jet scrubber 2 to flush water to the exhaust gas, so that the exhaust gas is sold out. Particles such as (i) and harmful gases are attached to the liquid and trapped to remove dust and harmful gases contained in the exhaust gas. In addition, since the exhaust gas inflicted with this water is a high temperature of 500 ° C to 900 ° C, a large amount of white smoke (water vapor) is generated when the exhaust gas is spouted with water. The exhaust gas containing the white smoke passes through the gas-liquid separation tank 4 provided below the jet scrubber 2 by the attracting fan 3 and passes through the dust collector 6 provided below the chimney 5 to be in the atmosphere in the chimney 5. In addition, the water to which the particulates, such as the dust and the noxious gas adhered, is collected at the bottom of the gas-liquid separation tank 4, and is sent to the wastewater treatment apparatus outside the drawing by the drainage pipe 7 for treatment.

However, the white smoke discharged to the atmosphere contains fine particles such as fine dust and noxious gas which are not trapped in the water falling into the gas-liquid separation tank among particulates such as dust and harmful gas contained in the exhaust gas. Therefore, the conventional exhaust gas treatment device has a drawback that white fine smoke containing fine dust and noxious gas is released into the atmosphere. As a method of removing the white smoke (water vapor), a method of vaporizing water vapor by heating the exhaust gas containing the white smoke with a burner or the like has been proposed, but it is practically used due to low effect or high cost of the combustion device. Is not reaching. A method of transporting an exhaust gas containing the white smoke to a tube and air-cooling with a cooling fan to condense and recover water vapor in the gas has been proposed. However, in this method, since a large amount of exhaust gas needs to be cooled until water vapor condenses, there is a drawback that the equipment becomes large and more expensive.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an exhaust gas treatment apparatus capable of removing white smoke (water vapor) in a simple manner and at the same time reducing odors of harmful gases and exhaust gases included in the emitted exhaust gas. The purpose is to provide.

The exhaust gas treating apparatus according to claim 1 of the present invention is characterized in that the exhaust gas sent from the jet scrubber through the gas-liquid separation tank is discharged through a shower of liquid. The exhaust gas treating apparatus according to claim 2 of the present invention is characterized in that the exhaust gas having passed through the shower of liquid is discharged to the atmosphere after passing through the ceramic particles. In the exhaust gas treatment apparatus of claim 3 of the present invention, the composition of ceramic particles is composed of (SiO ₂ ) _a. (A1 ₂ O ₃ ) _b. (K ₂ O) _c. (M _x O _y ) _d a = 75 to 90 wt%, b = 5 to 15 wt%, c = 2.5 to 4.5 wt% (a + b + c + d = 100 wt%) and the M _x O _y is represented by Fe ₂ O ₃ , TiO _2, and the like. It is characterized in that the metal oxide.

1 is a configuration diagram of an exhaust gas treating apparatus according to an embodiment of the present invention.

2 is a diagram showing the adsorption effect of ceramic particles according to an embodiment of the present invention.

3 is a block diagram of a conventional exhaust gas treating apparatus.

* Explanation of symbols for main parts of the drawings

1: exhaust gas introduction pipe 2: jet scrubber

3: attraction pan 4: gas-liquid separation tank

5: chimney 6: dust collector

7,14: drain pipe 8: shower room

9: ceramic particles 10: filtration unit

11: each baffle plate 12: shower

13: water pipe

<Embodiment>

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described based on drawing. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the configuration of an exhaust gas treating apparatus according to the present embodiment. The exhaust gas treating apparatus includes an exhaust gas outlet 4p of a gas-liquid separation tank 4 and an exhaust gas inlet of a dust collector 6 installed below the chimney 5. In the passage between 6p, the shower chamber 8 and the filtration unit 10 which filled the ceramic particle 9 in the upstream of the attracting fan 3 to the downstream of the dust collector 6 in the chimney 5 are provided. In the shower room 8, a plurality of partition plates (hereinafter referred to as baffle plates) 11 are alternately installed on the ceiling and the floor so as to lengthen the actual passage distance of the exhaust gas containing the white smoke flowing into the liquid shower room 8, The baffle plate 11 is provided with a shower 12, respectively. The shower 12 is provided with a water supply pipe 13 for supplying a shower water, and a drain pipe 14 for draining the discharged shower water to the gas-liquid separation tank 4. In addition, the ceramic is composed of (SiO ₂ ) _a. (A1 ₂ O ₃ ) _b. (K ₂ O) _c. (M _x O _y ) _d , and a = 75 to 90 wt%, b = 5. 15 wt%, c = 2.5-4.5 wt% (a + b + c + d = 100 wt%, M _x O _y is a porous ceramic of metal oxides such as Fe ₂ O ₃ , TiO ₂ , hereinafter referred to as clean ceramic Next, the operation of the exhaust gas treatment device will be described .. White smoke (water vapor) introduced by the attracting fan 3 and flowing into the liquid shower chamber 8 from the exhaust gas outlet 4p of the gas-liquid separation tank 4 is explained. The exhaust gas included is cooled by sandwiching a shower of liquid between passages made up of the baffle plate 11, and the water vapor contained in the exhaust gas becomes water droplets and is collected at the bottom of the shower room 8 simultaneously with the shower water. After passing through the gas-liquid separation tank 4, the exhaust gas from which the water vapor has been separated is removed from the dust remaining by the dust collector 6. And the ceramic particles 9 made of clean ceramic filled in the filtration unit 10 have a function of adsorbing not only the particulates in the gas but also harmful gases. After the exhaust fumes and harmful gases are removed, they are released into the atmosphere from the chimney 5. As a result, for example, a mixture of construction waste and vinyl chloride is burned in an incinerator and treated by the exhaust gas treatment device. In any case of the outside air temperature of 25 ° C., 15 ° C., and 5 ° C., the white smoke is not visualized, and the exhaust gas also reduces the irritating smell peculiar to the hydrogen chloride generated by the combustion of the benzyl chlorides. If extracted before entering 10, the extracted gas clearly has a strong irritating odor peculiar to hydrogen chloride. In the above example, the concentration of dust (dust) at the point where the exhaust gas passed through the dust collector 6 (measurement point A of FIG. 1) and the point through which the filtration unit 10 passed (measurement point B of FIG. 1), sulfur oxides, nitrogen This is a graph comparing the concentration change of harmful gases such as oxide and hydrogen chloride. As is clear from this graph, the sulfur oxide concentration and the hydrogen chloride concentration at the measuring point B are greatly reduced by 1/3 to 1/4 compared to the measuring point A due to the adsorption effect of the ceramic particles composed of the clean ceramic described above. The soot concentration and the nitrogen oxide concentration are also decreased by 3% to 10%. As described above, according to the present embodiment, the exhaust gas sent from the jet scrubber through the gas-liquid separation tank is allowed to pass through the shower of the liquid, and furthermore, the exhaust gas is passed between ceramic particles made of clean ceramic and then in the atmosphere. It is possible to remove the white smoke (water vapor) contained in the exhaust gas, and to reduce the fine dust contained in the emitted exhaust gas and the odor of the harmful gas and the emitted exhaust gas.

As described above, according to the exhaust gas treating apparatus described in claim 1, since the exhaust gas sent through the gas-liquid separation tank is discharged through the liquid shower, white smoke (vapor) in the exhaust gas is easily removed. can do. According to the exhaust gas treating apparatus according to claim 2 of the present invention, since the exhaust gas passing through the shower of the liquid is allowed to pass through the ceramic particles and then released into the atmosphere, the fine dust contained in the emitted exhaust gas can be reduced. have. According to the exhaust gas treating apparatus of claim 3 of the present invention, the ceramic particles are composed of (SiO ₂ ) a · (A1 ₂ O ₃ ) _b ㆍ (K ₂ O) _c · (M _x O _y ) _d . And a = 75 to 90 wt%, b = 5 to 15 wt%, c = 2.5 to 4.5 wt% (a + b + c + d = 100 wt%) and M _x O _y is Fe ₂ O ₃ , TiO _2, or the like. Since it is made of porous ceramics, which are metal oxides, it is possible to reduce odors of harmful gases and exhaust gases contained in exhaust gases emitted into the atmosphere.

Claims (3)

An exhaust gas treating apparatus comprising a jet scrubber for ejecting liquid in exhaust gas to remove dust and the like in the exhaust gas, and a gas-liquid separation tank for separating the liquid and exhaust gas. And an exhaust gas sent through the gas-liquid separation tank to be discharged through a liquid shower. The method of claim 1, An exhaust gas treating apparatus characterized by discharging exhaust gas passing through a shower of liquid to the atmosphere after passing through ceramic particles. The method of claim 2, The composition of the ceramic particles is (SiO ₂ ) a · (A1 ₂ O ₃ ) _b · (K ₂ O) _{c ·} (M _x O _y ) _d , where a = 75 to 90 wt% and b = 5 to 15 wt%, c = 2.5 to 4.5 wt% (a + b + c + d = 100 wt%) and the M _x O _y is an exhaust gas treatment apparatus, characterized in that the metal oxide, such as Fe ₂ O ₃ , TiO ₂ .