WO2013147432A1 - Heat generating device for decomposing pollutants - Google Patents

Heat generating device for decomposing pollutants Download PDF

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Publication number
WO2013147432A1
WO2013147432A1 PCT/KR2013/001810 KR2013001810W WO2013147432A1 WO 2013147432 A1 WO2013147432 A1 WO 2013147432A1 KR 2013001810 W KR2013001810 W KR 2013001810W WO 2013147432 A1 WO2013147432 A1 WO 2013147432A1
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Prior art keywords
coupled
chamber
high temperature
mixing
lower portion
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PCT/KR2013/001810
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French (fr)
Korean (ko)
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주성호
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Joo Sung Ho
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D53/00Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
    • B01D53/32Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols by electrical effects other than those provided for in group B01D61/00
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D53/00Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
    • B01D53/34Chemical or biological purification of waste gases
    • B01D53/38Removing components of undefined structure
    • B01D53/44Organic components
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D53/00Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
    • B01D53/005Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols by heat treatment
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D53/00Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
    • B01D53/34Chemical or biological purification of waste gases
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D53/00Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
    • B01D53/34Chemical or biological purification of waste gases
    • B01D53/74General processes for purification of waste gases; Apparatus or devices specially adapted therefor

Definitions

  • the present invention relates to a high temperature generating apparatus for decomposing pollutants, and in particular, a high temperature generating chamber having a high temperature generating head and a reaction body having a reaction chamber coupled to a lower portion of a mixing body having a mixing chamber. Water and air are supplied to the upper inner side, and contaminants are supplied to the inner side of the mixing chamber to react and discharge from the reaction chamber.
  • plasma technology using nitrogen gas is used as a method for treating harmful gases among air pollutants.
  • the plasma technology has the advantages of low wear and long use of plasma torch composed of electrodes of cathode and anode. It is mainly used because of.
  • water and air are supplied to the high temperature generation chamber of the mixing body to be decomposed into hydrogen and Oechi while being reacted with oxygen and hydrogen by water vapor, and contaminants supplied to the mixing chamber are oxygen, hydrogen fluoride and carbon dioxide. It is to be purified and discharged to a stable gas such as, and to increase the efficiency by preventing the mixture body from overheating by the cooling action by water.
  • the present invention is a high temperature generating device for pollutant decomposition treatment configured to be coupled to the high temperature generating head 20 on the upper portion of the mixed body 10, the reaction body 30 is coupled to the lower portion of the mixed body 10 ( In the A), the mixing body 10 is formed to penetrate the high temperature generating chamber 11 toward the inside of the cylindrical body to the upper side, the mixing of the lower portion of the cylindrical body in the lower portion of the high temperature generating chamber 11
  • the seal 12 is integrally formed to penetrate, and the high temperature generating head 20 is formed so that the stepped hole 211 penetrates downward in the center of the head body 21, and the stepped hole 211
  • the negative electrode rod 22 connected to the high voltage generator 221 is inserted, and the argon gas supply nozzle 23 is inserted between the negative electrode rod 22 and the stepped hole 211, and the argon gas supply nozzle 23 is coupled to the argon gas supply unit 231, the water supply unit 24 is provided on one side of the upper portion of the mixing body (10) It is coupled to supply water to the production
  • the air supply unit 25 is the air supply pipe 252 provided on the discharge side of the air compressor 251 is coupled to the outside of the air supply hole 253 formed in the mixing body 10, the air supply hole ( Air supply nozzle 254 is coupled to the inside of the 253, the air supply nozzle 254 is characterized in that the air injection hole 254-2 is formed in the hollow air diffusion ring 254-1 do.
  • the water supply unit 24 is provided on the discharge side of the water supply pump 241
  • the water supply pipe 242 is coupled to the outside of the water supply hole 243 formed in the mixing body 10, the water supply hole
  • the water supply nozzle 244 is coupled to the inside of the 243.
  • the high temperature generating chamber 11 formed inside the mixing body 10 is formed less than the diameter of the mixing chamber 12, the uneven ring portion 111 is formed on the inner peripheral surface of the high temperature generating chamber 11 It is characterized by.
  • the present invention allows the reaction body having a reaction chamber to be coupled to a lower portion of the mixing body having a mixing chamber and a high temperature generating chamber equipped with a high temperature generating head, so that water and air are supplied to the upper part of the high temperature generating chamber.
  • contaminants supplied to the inside of the chamber to be reacted in the reaction chamber it is possible to obtain the effect of being easily decomposed by hydrogen and OH while reacting with oxygen and hydrogen by water vapor in the high temperature production chamber.
  • the pollutants supplied to the mixing chamber may be smoothly purified and discharged with a stable gas such as oxygen, hydrogen fluoride, and carbon dioxide.
  • the mixing body is prevented from being overheated, thereby increasing the efficiency.
  • FIG. 1 is a perspective view of a high temperature generating device for pollutant decomposition treatment according to the present invention.
  • Figure 2 is a perspective view showing the inside of the high-temperature generating device for pollutant decomposition treatment according to the present invention.
  • Figure 3 is an exploded perspective view showing the inside of the high-temperature generator for decontamination treatment according to the present invention.
  • Figure 4 is a block diagram of a contaminant decomposition treatment showing a state in which the high temperature generator according to the present invention is installed.
  • the high temperature generator A for pollutant decomposition treatment according to the present invention is shown in Figures 1 to 4, the high temperature generating head 20 is coupled to the upper portion of the mixed body 10, the mixed body ( 10) the reaction body 30 is configured to be coupled to the lower portion.
  • the mixing body 10 is provided with a function to increase the efficiency by preventing overheating in the middle of the stable high temperature heat (plasma) generated inside the upper portion of the cylindrical body having a hollow shape
  • the high temperature generation chamber 11 facing the through is formed.
  • the lower portion of the high temperature generation chamber 11 is integrally formed so that the mixing chamber 12 facing the lower portion of the cylindrical body penetrates.
  • the high temperature generating chamber 11 formed in the upper portion of the mixing body 10 is formed smaller than the diameter of the mixing chamber 12 formed in the lower portion to increase the generation efficiency of plasma, and the high temperature generating chamber
  • the concave-convex ring part 111 is formed from the upper side to the lower side or from the lower side to the upper side, thereby increasing the internal cross-sectional area to increase the cooling efficiency and to increase the efficiency of converting water into water.
  • the mixed body 10 can be generated smoothly through the cathode rod 22 by allowing the positive electrode to be grounded from the high voltage generator 221 which will be described later.
  • the high temperature generating head 20 has a function of generating plasma (heat) by the high voltage applied from the high voltage generating unit 221, and the stepped hole 211 formed to penetrate downward in the center of the head body 21 is formed.
  • the negative electrode 22 which is formed and connected to the high voltage generator 221 is inserted into the stepped hole 211.
  • the argon gas supply nozzle 23 of the argon gas supply unit 231 is inserted between the cathode rod 22 and the stepped hole 211, so that stable plasma can be continuously generated.
  • the argon gas is configured to prevent corrosion and deformation in the cathode rod 22 and the high temperature generation chamber 11 due to the water vapor during the plasma generation process.
  • the upper side of the mixing body 10 is provided with a water supply unit 24 is a constant amount of water is continuously supplied to the high temperature generation chamber 11, so that the cooling can be made in the process of the water vapor In the middle, the efficiency of reacting with oxygen and hydrogen by steam can be easily decomposed by hydrogen and OA.
  • the water supply unit 24 is the water supply pipe 242 provided on the discharge side of the water supply pump 241 is coupled to the outside of the water supply hole 243 formed in the mixing body 10, the water supply hole ( 243, the water supply nozzle 244 is configured to be coupled.
  • the other side of the upper portion of the mixing body 10 is provided with an air supply unit 25 for supplying air to the interior of the high temperature generation chamber 11, the air supply unit 25 is the discharge side of the air compressor 251
  • the provided air supply pipe 252 is configured to be coupled to the outside of the air supply hole 253 formed in the mixing body (10).
  • An air supply nozzle 254 is coupled to the inside of the air supply hole 253, and the air supply nozzle 254 has an air injection hole 254-2 in the hollow air diffusion ring 254-1. It is formed so as to increase the supply rate of air.
  • the pollutant inlet 26 of the pollutant supply unit 261 that supplies the pollutant is coupled to the lower portion of the mixing body 10.
  • the reaction body 30 is formed to penetrate the reaction chamber 301 narrowed to the bottom therein, the upper portion of the reaction body 30 is coupled to the lower portion of the mixing body 10 by the flange 31
  • the coolant injection nozzle 312 connected to the coolant supply unit 311 is inserted into the reaction chamber 301.
  • the lower portion of the reaction body 30, the inlet side of the gas outlet 50 is coupled, the exhaust gas storage tank 51 in the lower side to the outlet side of the gas outlet (50) ) Is coupled, and the upper portion of the exhaust gas cylinder 54 having an exhaust pipe 53 connected to the exhaust pump 52 is configured to be coupled.
  • a coolant injection nozzle 541 is provided at an inner upper portion of the exhaust gas cylinder 54, and a gas connected to a gas discharge pump 501 is connected to a gas discharge port 50 at a lower portion of the exhaust gas cylinder 54.
  • the injection pipe 502 is comprised so that it may be provided.
  • the other side of the exhaust gas storage tank 51 is configured to be coupled to the water injection pipe 512 having a valve 511.
  • a high voltage is applied to the cathode rod 22 provided in the head body 21 through the high voltage generator 221 and mixed at the same time.
  • a high temperature of about 2000 ° C. or more is generated.
  • the life including the lower end of the cathode rod 22 may be prevented from being corroded to extend its life.
  • the water is supplied through the water supply pump 241 of the water supply unit 24 through the water supply pipe 242 and the water supply hole 243 through the water supply nozzle 244 to the upper inside of the high temperature generation chamber 11.
  • the air is supplied to the air through the air compressor 251 of the air supply unit 25 at the same time the air supply pipe 252, the air supply hole 253 and the air injection hole 254-2 of the air supply nozzle 254 It is supplied to the inside of the upper portion of the high temperature generation chamber (11) through.
  • the water and air supplied to the high temperature generation chamber 11 is vaporized and then transferred to the mixing chamber 12, and the mixing chamber 12 continuously supplies a certain amount of contaminants through the pollutant supply unit 261.
  • water vapor reacts with oxygen and hydrogen, and as it is decomposed into hydrogen and OH, pollutants are purified by stable gases such as hydrogen fluoride and carbon dioxide.
  • This reaction requires oxygen, hydrogen and Oechi in the process of gasification of contaminants containing poison gas and poison gas components, and by adding contaminants (hazardous gases) to be treated in flames of 2000 °C or higher.
  • contaminants hazards gases
  • polymers of poison gas or poison gas components are decomposed into monomolecular substances, and oxygen and hydrogen are combined to generate carbon monoxide, carbon dioxide, hydrogen chloride and hydrogen fluoride.
  • coolant is injected through the coolant injection nozzle 541 provided in the upper portion of the exhaust gas cylinder 54 to rapidly cool the gas. A complete decomposition process is achieved.
  • the water supplied to the high temperature generation chamber 11 is cooled in the process flowing downward along the inner wall of the high temperature generation chamber 11 it is possible to prevent the mixing body 10 is overheated.
  • the mixed gas mixed with the contaminants in the mixing chamber 12 is reacted in the reaction chamber 301 of the reaction body 30, and then a part of the mixed gas is passed to the exhaust gas storage tank 51 via the gas outlet 50.
  • the rest is discharged to the outside through the exhaust gas cylinder 54, the exhaust pipe 53 and the exhaust pump 52.
  • the gas in the gas outlet 50 is supplied to the inside of the exhaust gas cylinder 54 through the gas circulation pump 501 and the gas injection pipe 502 to be injected.
  • the reaction efficiency may be increased.
  • A high temperature generator 10: mixed body
  • cathode rod 23 supply nozzle
  • high voltage generation unit 231 argon gas supply unit

Abstract

The present invention relates to a heat generating device for decomposing pollutants. To this end, the present invention provides a heat generating device for decomposing pollutants, in which a heat generating head is coupled to the upper portion of a mixing body and a reaction body is coupled to the lower portion of the mixing body, wherein: the mixing body has a heat generating chamber formed to face the upper portion so as to penetrate the inside of a cylindrical body; a mixing chamber is integrally formed at the lower portion of the heat generating chamber to face the lower portion of the cylindrical body so as to penetrate the same; the heat generating head has a stepped hole formed in the center of a head body to penetrate downward; a cathode rod, which is connected to a high voltage generating part, is inserted into the stepped hole; an Argon gas supply nozzle is inserted in between the cathode rod and the stepped hole, and coupled to an Argon gas supply part; a water supply part is provided at one side of the upper portion of the mixing body and is coupled so as to supply water to the heat generating chamber; an air supply part is provided at the other side of the upper portion of the mixing body so as to supply air to the heat generating chamber; a pollutant injection member, which is connected to a pollutant supply part for supplying pollutants to the mixing chamber, is coupled to the lower portion of the mixing body; the reaction body has a reaction chamber, which becomes narrower toward the lower portion, is formed to penetrate the interior thereof; the upper portion of the reaction body is coupled to the lower portion of the mixing body by a flange; and a cooling water injection nozzle, which is connected to a cooling water supply part, is coupled to the reaction chamber to be inserted therein.

Description

오염물질 분해처리용 고온발생장치High temperature generator for decomposing pollutants
본 발명은 오염물질 분해처리용 고온발생장치에 관한 것으로서, 특히 고온발생헤드가 구비된 고온생성실과 혼합실을 갖는 혼합몸체의 하부에 반응실을 갖는 반응몸체가 결합되어지도록 하는 가운데 고온생성실의 내측 상부로 물과 에어가 공급되어지도록 하고, 혼합실의 내측으로 오염물질이 공급되어 반응실에서 반응되어 배출되도록 한 것이다.The present invention relates to a high temperature generating apparatus for decomposing pollutants, and in particular, a high temperature generating chamber having a high temperature generating head and a reaction body having a reaction chamber coupled to a lower portion of a mixing body having a mixing chamber. Water and air are supplied to the upper inner side, and contaminants are supplied to the inner side of the mixing chamber to react and discharge from the reaction chamber.
일반적으로 대기중의 오염물질 중 유해가스들은 처리하기위한 방안으로 질소가스를 이용한 프라즈마 기술이 사용되어지고 있으며, 이러한 프라즈마 기술은 음극과 양극의 전극으로 이루어진 프라즈마 토치의 마모가 적고 오래 사용할 수 있는 장점으로 인하여 주로 이용되어지고 있다.In general, plasma technology using nitrogen gas is used as a method for treating harmful gases among air pollutants. The plasma technology has the advantages of low wear and long use of plasma torch composed of electrodes of cathode and anode. It is mainly used because of.
그러나 질소의 안정화된 성질로 인하여 오염물질의 처리가 완전하지 못한 한계점이 있었다. 이는 유해가스를 처리하기 위해서는 별도의 고온 열분해처리가 필요하고 여기에 산화수소기를 투입하여 독가스를 분해시켜서 불화수소, 염화수소 및 이산화탄소 등으로 안정화시켜 처리하여야 하나, 질소가스를 이용한 프라즈마 기술로는 유독가스 처리가 완전하지 못한 문제점이 있었다.However, due to the stabilized nature of nitrogen, there was a limit to the incomplete treatment of contaminants. This requires a separate high-temperature pyrolysis treatment to treat harmful gases, and to add a hydrogen oxide group to decompose the poison gas to stabilize it with hydrogen fluoride, hydrogen chloride and carbon dioxide, but the plasma technology using nitrogen gas toxic gas There was a problem that the processing was not complete.
한편, 이러한 프라즈마 기술은 공개특허 1997-2102(1997.1.24)호의 프라즈마에 의한 산업폐기 악성기체 및 폐유와 폐기고체의 소각장치로 공개되었고, 공개된 소각장치는 프라즈마 토치로 구성시킨 반응실에 산소와 암모니아의 연속촉매제를 주입시키는 주입관이 결합되어지고, 반응실에 산소를 공급하여 오염악성물질을 태우는 것이나, 이는 산소와 반응하는 오염악성물질만 산화처리되기 때문에 처리효율이 낮아지는 문제점이 있었고, 마이너스기를 띤 오염물질인 염소기 및 불화기 등과 같은 것은 처리가 어려우며 비용이 증가되는 또 다른 문제점이 있었다.On the other hand, such a plasma technology has been disclosed as an incineration apparatus of industrial waste malignant gas and waste oil and waste solids by the plasma of Patent Publication No. 1997-2102 (1997.1.24), and the disclosed incineration apparatus is oxygen and ammonia in a reaction chamber composed of a plasma torch. The injection tube for injecting the continuous catalyst of is combined and burns the polluting malignant material by supplying oxygen to the reaction chamber, but this has a problem of lowering the processing efficiency because only the contaminating malignant reacted with oxygen is oxidized. Chlorine groups and fluorinated groups, which are grouped pollutants, are difficult to treat and have increased costs.
또한, 오염악성물질을 태우는 과정에서 반응실에서 발생된 열에 의하여 소각장치가 과열되는 원인이 있었고, 이러한 원인으로 인하여 효율이 낮아지는 문제점이 있었다.In addition, there was a cause that the incinerator overheated by the heat generated in the reaction chamber in the process of burning contaminated malignant material, there was a problem that the efficiency is lowered due to this cause.
본 발명은 물과 에어가 혼합몸체의 고온생성실로 공급되어 수증기에 의한 산소와 수소로 반응되어지는 가운데 수소와 오에이치기로 분해되어지도록 하고, 혼합실로 공급되어지는 오염물질이 산소, 불화수소 및 이산화탄소 등의 안정된 가스로 정화되어 배출되어지도록 하고, 물에 의한 냉각작용에 의하여 혼합몸체가 과열되는 것을 방지하여 효율을 높일 수 있도록 한 것이다.In the present invention, water and air are supplied to the high temperature generation chamber of the mixing body to be decomposed into hydrogen and Oechi while being reacted with oxygen and hydrogen by water vapor, and contaminants supplied to the mixing chamber are oxygen, hydrogen fluoride and carbon dioxide. It is to be purified and discharged to a stable gas such as, and to increase the efficiency by preventing the mixture body from overheating by the cooling action by water.
본 발명은 혼합몸체(10)의 상부에 고온발생헤드(20)가 결합되어지고, 상기 혼합몸체(10)의 하부에 반응몸체(30)가 결합되어지게 구성된 오염물질 분해처리용 고온발생장치(A)에 있어서, 상기 혼합몸체(10)는 원통체의 내측에 상부를 향하는 고온생성실(11)이 관통되게 형성되어지며, 상기 고온생성실(11)의 하부에 원통체의 하부를 향하는 혼합실(12)이 관통되게 일체로 형성되어지고, 상기 고온발생헤드(20)는 헤드몸체(21)의 중앙에 하부로 단턱홀(211)이 관통되게 형성되어지며, 상기 단턱홀(211)에는 고전압발생부(221)에 접속된 음극봉(22)이 삽입되어지고, 상기 음극봉(22)과 단턱홀(211) 사이에 알곤가스 공급노즐(23)이 삽입되어지며, 상기 알곤가스 공급노즐(23)이 알곤가스 공급부(231)에 결합되어지고, 상기 혼합몸체(10)의 상부 일측에 물공급부(24)가 구비되어 고온생성실(11)로 물이 공급되게 결합되어지고, 상기 혼합몸체(10)의 상부 타측에 에어공급부(25)가 구비되어 상기 고온생성실(11)로 에어가 공급되게 구비되어지고, 상기 혼합실(12)로 오염물질을 공급하는 오염물질 공급부(261)에 연결된 오염물질 주입구(26)가 상기 혼합몸체(10)의 하부에 결합되어지고, 상기 반응몸체(30)는 내부에 하부로 좁아지는 반응실(301)이 관통되게 형성되어지고, 상기 반응몸체(30)의 상부가 혼합몸체(10)의 하부에 플랜지(31)로 결합되어지고, 상기 반응실(301)에 냉각수 공급부(311)에 연결된 냉각수 분사노즐(312)이 삽입되게 결합됨을 특징으로 한다.The present invention is a high temperature generating device for pollutant decomposition treatment configured to be coupled to the high temperature generating head 20 on the upper portion of the mixed body 10, the reaction body 30 is coupled to the lower portion of the mixed body 10 ( In the A), the mixing body 10 is formed to penetrate the high temperature generating chamber 11 toward the inside of the cylindrical body to the upper side, the mixing of the lower portion of the cylindrical body in the lower portion of the high temperature generating chamber 11 The seal 12 is integrally formed to penetrate, and the high temperature generating head 20 is formed so that the stepped hole 211 penetrates downward in the center of the head body 21, and the stepped hole 211 The negative electrode rod 22 connected to the high voltage generator 221 is inserted, and the argon gas supply nozzle 23 is inserted between the negative electrode rod 22 and the stepped hole 211, and the argon gas supply nozzle 23 is coupled to the argon gas supply unit 231, the water supply unit 24 is provided on one side of the upper portion of the mixing body (10) It is coupled to supply water to the production chamber 11, the air supply unit 25 is provided on the other side of the upper body of the mixing body 10 is provided to supply air to the high temperature generation chamber 11, the mixing The contaminant inlet 26 connected to the contaminant supply unit 261 for supplying contaminants to the seal 12 is coupled to the lower portion of the mixing body 10, and the reaction body 30 is narrowed to the lower part of the inside. Loss of reaction chamber 301 is formed through, the upper portion of the reaction body 30 is coupled to the lower portion of the mixing body 10 by the flange 31, the cooling water supply unit 311 to the reaction chamber 301 Coolant injection nozzle 312 connected to the) is characterized in that coupled to be inserted.
또한, 상기 에어공급부(25)는 에어압축기(251)의 토출측에 구비된 에어공급관(252)이 혼합몸체(10)에 형성된 에어공급홀(253)의 외측에 결합되어지고, 상기 에어공급홀(253)의 내측에 에어공급노즐(254)이 결합되어지되, 상기 에어공급노즐(254)은 중공형의 에어확산링(254-1)에 에어분사홀(254-2)이 형성되어짐을 특징으로 한다.In addition, the air supply unit 25 is the air supply pipe 252 provided on the discharge side of the air compressor 251 is coupled to the outside of the air supply hole 253 formed in the mixing body 10, the air supply hole ( Air supply nozzle 254 is coupled to the inside of the 253, the air supply nozzle 254 is characterized in that the air injection hole 254-2 is formed in the hollow air diffusion ring 254-1 do.
또한, 상기 물공급부(24)는 물공급펌프(241)의 토출측에 구비됨 물공급관(242)이 혼합몸체(10)에 형성된 물공급홀(243)의 외측에 결합되어지고, 상기 물공급홀(243)의 내측에 물공급노즐(244)이 결합되어짐을 특징으로 한다.In addition, the water supply unit 24 is provided on the discharge side of the water supply pump 241 The water supply pipe 242 is coupled to the outside of the water supply hole 243 formed in the mixing body 10, the water supply hole The water supply nozzle 244 is coupled to the inside of the 243.
그리고 상기 혼합몸체(10)의 내부에 형성된 고온생성실(11)은 상기 혼합실(12)의 직경 보다 더 적게 형성되어지되, 상기 고온생성실(11)의 내주면에 요철링부(111)가 형성되어짐을 특징으로 한다.And the high temperature generating chamber 11 formed inside the mixing body 10 is formed less than the diameter of the mixing chamber 12, the uneven ring portion 111 is formed on the inner peripheral surface of the high temperature generating chamber 11 It is characterized by.
본 발명은 고온발생헤드가 구비된 고온생성실과 혼합실을 갖는 혼합몸체의 하부에 반응실을 갖는 반응몸체가 결합되어지도록 하는 가운데 고온생성실의 내측 상부로 물과 에어가 공급되어지도록 하고, 혼합실의 내측으로 오염물질이 공급되어 반응실에서 반응되어지도록 함으로써, 고온생성실에서 수증기에 의한 산소와 수소로 반응되어지는 가운데 수소와 오에이치기로 용이하게 분해되어지는 효과를 얻을 수 있다.The present invention allows the reaction body having a reaction chamber to be coupled to a lower portion of the mixing body having a mixing chamber and a high temperature generating chamber equipped with a high temperature generating head, so that water and air are supplied to the upper part of the high temperature generating chamber. By contaminants supplied to the inside of the chamber to be reacted in the reaction chamber, it is possible to obtain the effect of being easily decomposed by hydrogen and OH while reacting with oxygen and hydrogen by water vapor in the high temperature production chamber.
또한, 이러한 상태에서 혼합실로 공급되어지는 오염물질이 산소, 불화수소 및 이산화탄소 등의 안정된 가스로 원활하게 정화되어 배출되어지는 효과를 얻을 수 있다.In addition, in this state, the pollutants supplied to the mixing chamber may be smoothly purified and discharged with a stable gas such as oxygen, hydrogen fluoride, and carbon dioxide.
그리고 고온발생실로 공급되어지는 물이 수증기로 되어지는 과정에서 냉각이 이루어지게 됨에 따라 혼합몸체가 과열되는 것을 방지하여 효율을 높일 수 있는 효과를 더 얻을 수 있다. In addition, as the cooling is performed in the process of supplying water to the high temperature generating chamber with water vapor, the mixing body is prevented from being overheated, thereby increasing the efficiency.
도1은 본 발명에 따른 오염물질 분해처리용 고온발생장치의 사시도.1 is a perspective view of a high temperature generating device for pollutant decomposition treatment according to the present invention.
도2는 본 발명에 따른 오염물질 분해처리용 고온발생장치의 내부를 절개하여 도시한 사시도.Figure 2 is a perspective view showing the inside of the high-temperature generating device for pollutant decomposition treatment according to the present invention.
도3은 본 발명에 따른 오염물질 분해처리용 고온발생장치의 내부를 절개하여 도시한 분해 사시도.Figure 3 is an exploded perspective view showing the inside of the high-temperature generator for decontamination treatment according to the present invention.
도4는 본 발명에 따른 고온발생장치가 설치된 상태를 도시한 오염물질 분해처리의 구성도.Figure 4 is a block diagram of a contaminant decomposition treatment showing a state in which the high temperature generator according to the present invention is installed.
본 발명의 실시예를 첨부 도면을 참조하여 설명하면 다음과 같다.An embodiment of the present invention will be described with reference to the accompanying drawings.
본 발명에 따른 오염물질 분해처리용 고온발생장치(A)는 도1 내지 도4에 도시된 바와 같이, 혼합몸체(10)의 상부에 고온발생헤드(20)가 결합되어지고, 상기 혼합몸체(10)의 하부에 반응몸체(30)가 결합되어지게 구성되어 있다.The high temperature generator A for pollutant decomposition treatment according to the present invention is shown in Figures 1 to 4, the high temperature generating head 20 is coupled to the upper portion of the mixed body 10, the mixed body ( 10) the reaction body 30 is configured to be coupled to the lower portion.
여기에서, 상기 혼합몸체(10)는 내부에 안정된 고온의 열(프라즈마)이 발생되는 가운데 과열되는 것을 방지하여 효율을 높일 수 있는 기능이 제공되어지는 것으로 중공인 형태를 갖는 원통체의 내측에 상부를 향하는 고온생성실(11)이 관통되게 형성되어 있다. Here, the mixing body 10 is provided with a function to increase the efficiency by preventing overheating in the middle of the stable high temperature heat (plasma) generated inside the upper portion of the cylindrical body having a hollow shape The high temperature generation chamber 11 facing the through is formed.
상기 고온생성실(11)의 하부에는 원통체의 하부를 향하는 혼합실(12)이 관통되게 일체로 형성되어있다.The lower portion of the high temperature generation chamber 11 is integrally formed so that the mixing chamber 12 facing the lower portion of the cylindrical body penetrates.
이러한 상기 혼합몸체(10)의 내부인 상부로 형성된 고온생성실(11)은 하부로 형성된 혼합실(12)의 직경 보다 더 적게 형성되어 프라즈마의 발생효율을 높일 수 있게 되어지고, 상기 고온생성실(11)의 내주면에는 요철링부(111)가 상부에서 하부 또는 하부에서 상부를 향하여 형성되어짐으로써, 내부 단면적을 넓혀 냉각효율을 높이며 물이 수중기로 변환되는 효율을 높일 수 있게 구성되어 있다. 한편, 상기 혼합몸체(10)는 후술하는 고전압발생부(221)로부터 양극이 접지되어지도록 함으로써, 음극봉(22)을 통해 프라즈마가 원활하게 발생될 수 있게 된다.The high temperature generating chamber 11 formed in the upper portion of the mixing body 10 is formed smaller than the diameter of the mixing chamber 12 formed in the lower portion to increase the generation efficiency of plasma, and the high temperature generating chamber On the inner circumferential surface of (11), the concave-convex ring part 111 is formed from the upper side to the lower side or from the lower side to the upper side, thereby increasing the internal cross-sectional area to increase the cooling efficiency and to increase the efficiency of converting water into water. On the other hand, the mixed body 10 can be generated smoothly through the cathode rod 22 by allowing the positive electrode to be grounded from the high voltage generator 221 which will be described later.
상기 고온발생헤드(20)는 고전압발생부(221)에서 인가된 고전압에 의하여 프라즈마(열)가 발생되는 기능을 갖는 것으로 헤드몸체(21)의 중앙에 하부로 관통되게 형성된 단턱홀(211)이 형성되어지고, 상기 단턱홀(211)에 고전압발생부(221)에 접속된 음극봉(22)이 삽입되어 있다. The high temperature generating head 20 has a function of generating plasma (heat) by the high voltage applied from the high voltage generating unit 221, and the stepped hole 211 formed to penetrate downward in the center of the head body 21 is formed. The negative electrode 22 which is formed and connected to the high voltage generator 221 is inserted into the stepped hole 211.
상기 음극봉(22)과 단턱홀(211) 사이에는 알곤가스 공급부(231)의 알곤가스 공급노즐(23)이 삽입되어짐으로써, 안정된 프라즈마가 계속적으로 발생될 수 있게 구성되어 있다. 이때, 상기 알곤가스는 프라즈마가 발생되는 과정중에 수증기로 인한 음극봉(22) 및 고온생성실(11)내의 부식과 변형을 방지할 수 있게 구성되어 있다.The argon gas supply nozzle 23 of the argon gas supply unit 231 is inserted between the cathode rod 22 and the stepped hole 211, so that stable plasma can be continuously generated. At this time, the argon gas is configured to prevent corrosion and deformation in the cathode rod 22 and the high temperature generation chamber 11 due to the water vapor during the plasma generation process.
한편, 상기 혼합몸체(10)의 상부 일측에는 물공급부(24)가 구비되어 고온생성실(11)로 일정량의 물이 계속적으로 공급됨으로써, 물이 수증기로 되어지는 과정에서 냉각이 이루어질 수 있도록 하는 가운데 수증기에 의한 산소와 수소로 반응되어지는 효율을 높여 수소와 오에이치기로 용이하게 분해되어질 수 있게 된다.On the other hand, the upper side of the mixing body 10 is provided with a water supply unit 24 is a constant amount of water is continuously supplied to the high temperature generation chamber 11, so that the cooling can be made in the process of the water vapor In the middle, the efficiency of reacting with oxygen and hydrogen by steam can be easily decomposed by hydrogen and OA.
이러한 상기 물공급부(24)는 물공급펌프(241)의 토출측에 구비된 물공급관(242)이 혼합몸체(10)에 형성된 물공급홀(243)의 외측에 결합되어지고, 상기 물공급홀(243)의 내측에 물공급노즐(244)이 결합되어지게 구성되어 있다.The water supply unit 24 is the water supply pipe 242 provided on the discharge side of the water supply pump 241 is coupled to the outside of the water supply hole 243 formed in the mixing body 10, the water supply hole ( 243, the water supply nozzle 244 is configured to be coupled.
상기 혼합몸체(10)의 상부 타측에는 고온생성실(11)의 내부로 에어가 공급되어지는 에어공급부(25)가 구비되어지며, 이러한 상기 에어공급부(25)는 에어압축기(251)의 토출측에 구비된 에어공급관(252)이 혼합몸체(10)에 형성된 에어공급홀(253)의 외측에 결합되어지게 구성되어 있다.The other side of the upper portion of the mixing body 10 is provided with an air supply unit 25 for supplying air to the interior of the high temperature generation chamber 11, the air supply unit 25 is the discharge side of the air compressor 251 The provided air supply pipe 252 is configured to be coupled to the outside of the air supply hole 253 formed in the mixing body (10).
상기 에어공급홀(253)의 내측에는 에어공급노즐(254)이 결합되어지고, 상기 에어공급노즐(254)은 중공형의 에어확산링(254-1)에 에어분사홀(254-2)이 형성되어 에어의 공급률을 높일 수 있게 구성되어 있다.An air supply nozzle 254 is coupled to the inside of the air supply hole 253, and the air supply nozzle 254 has an air injection hole 254-2 in the hollow air diffusion ring 254-1. It is formed so as to increase the supply rate of air.
상기 혼합실(12)은 오염물질을 공급하는 오염물질 공급부(261)의 오염물질 주입구(26)가 혼합몸체(10)의 하부에 결합되어 있다.In the mixing chamber 12, the pollutant inlet 26 of the pollutant supply unit 261 that supplies the pollutant is coupled to the lower portion of the mixing body 10.
상기 반응몸체(30)는 내부에 하부로 좁아지는 반응실(301)이 관통되게 형성되어지고, 상기 반응몸체(30)의 상부가 혼합몸체(10)의 하부에 플랜지(31)로 결합되어지고, 상기 반응실(301)에 냉각수 공급부(311)에 연결된 냉각수 분사노즐(312)이 삽입되어지게 구성되어 있다.The reaction body 30 is formed to penetrate the reaction chamber 301 narrowed to the bottom therein, the upper portion of the reaction body 30 is coupled to the lower portion of the mixing body 10 by the flange 31 The coolant injection nozzle 312 connected to the coolant supply unit 311 is inserted into the reaction chamber 301.
여기에서, 상기 반응몸체(30)의 하부는 도4에 도시된 바와 같이, 가스배출구(50)의 입구측이 결합되어지고, 상기 가스배출구(50)의 출구측으로 하부에는 배기가스 저장탱크(51)가 결합되어지며, 상부에는 배기펌프(52)에 연결된 배기관(53)을 갖는 배기가스통(54)의 하부가 결합되어지게 구성되어 있다.Here, as shown in Figure 4, the lower portion of the reaction body 30, the inlet side of the gas outlet 50 is coupled, the exhaust gas storage tank 51 in the lower side to the outlet side of the gas outlet (50) ) Is coupled, and the upper portion of the exhaust gas cylinder 54 having an exhaust pipe 53 connected to the exhaust pump 52 is configured to be coupled.
상기 배기가스통(54)의 내측 상부로는 냉각수 분사노즐(541)이 구비되어지며, 상기 냉각수 분사노즐(541)이 구비된 하부로는 가스배출구(50)에 가스순환펌프(501)로 연결된 가스분사관(502)이 구비되어지게 구성되어 있다.A coolant injection nozzle 541 is provided at an inner upper portion of the exhaust gas cylinder 54, and a gas connected to a gas discharge pump 501 is connected to a gas discharge port 50 at a lower portion of the exhaust gas cylinder 54. The injection pipe 502 is comprised so that it may be provided.
상기 배기가스 저장탱크(51)의 타측에는 밸브(511)를 갖는 물주입관(512)이 결합되어지게 구성되어 있다.The other side of the exhaust gas storage tank 51 is configured to be coupled to the water injection pipe 512 having a valve 511.
이와 같은 구성을 갖는 오염물질 분해처리용 고온발생장치(A)는 먼저, 고전압발생부(221)를 통해 고전압이 헤드몸체(21)의 내부에 구비된 음극봉(22)으로 인가되어짐과 동시에 혼합몸체(10)로 인가됨에 따라 약 2000℃ 이상의 고온이 발생하게 된다.In the high temperature generator A for contaminant decomposition treatment having such a configuration, first, a high voltage is applied to the cathode rod 22 provided in the head body 21 through the high voltage generator 221 and mixed at the same time. As applied to the body 10, a high temperature of about 2000 ° C. or more is generated.
다음, 알곤가스공급부(231)에서 알곤가스 공급노즐(23)을 통해 일정량의 알곤가스가 공급됨에 따라 음극봉(22)의 하단부를 포함하는 주변이 부식되는 것을 방지하여 수명을 연장시킬 수 있게 된다.Next, as a predetermined amount of argon gas is supplied from the argon gas supply unit 231 through the argon gas supply nozzle 23, the life including the lower end of the cathode rod 22 may be prevented from being corroded to extend its life. .
다음, 물공급부(24)의 물공급펌프(241)를 통해 물이 물공급관(242)과 물공급홀(243)을 경유하여 물공급노즐(244)을 통해 고온생성실(11)의 상부 내측으로 공급되어지게 되고, 이와 동시에 에어공급부(25)의 에어압축기(251)를 통해 에어가 에어공급관(252), 에어공급홀(253) 및 에어공급노즐(254)의 에어분사홀(254-2)을 통하여 고온생성실(11)의 상부 내측으로 공급되어지게 된다.Next, the water is supplied through the water supply pump 241 of the water supply unit 24 through the water supply pipe 242 and the water supply hole 243 through the water supply nozzle 244 to the upper inside of the high temperature generation chamber 11. The air is supplied to the air through the air compressor 251 of the air supply unit 25 at the same time the air supply pipe 252, the air supply hole 253 and the air injection hole 254-2 of the air supply nozzle 254 It is supplied to the inside of the upper portion of the high temperature generation chamber (11) through.
다음, 고온생성실(11)로 공급된 물과 에어는 수증기로 된 후 혼합실(12)로 이송되어지게 되며, 혼합실(12)로는 오염물질공급부(261)를 통해 일정량의 오염물질이 계속적으로 공급되는 과정에서 수증기는 산소와 수소로 반응되며, 수소와 오에이치기로 분해되어지게 됨에 따라 오염물질은 불화수소나 이산화탄소 등의 안정된 가스로 정화되어지게 된다.Next, the water and air supplied to the high temperature generation chamber 11 is vaporized and then transferred to the mixing chamber 12, and the mixing chamber 12 continuously supplies a certain amount of contaminants through the pollutant supply unit 261. In the process of supplying water vapor, water vapor reacts with oxygen and hydrogen, and as it is decomposed into hydrogen and OH, pollutants are purified by stable gases such as hydrogen fluoride and carbon dioxide.
이러한 반응은 독가스 및 독가스 성분이 들어있는 오염물질이 가스처리화되어지는 과정에서 산소와 수소 및 오에이치기가 필요로하게 되고, 2000℃ 이상의 화염에 처리되어져야할 오염물질(유해가스)을 넣어 줌으로써, 독가스나 독가스성분들의 고분자물질이 단분자물질로 분해되고, 산소와 수소가 결합되어 일산화탄소, 이산화탄소, 염화수소 및 불화수소가 생성케된다. 이와 같은 과정에서 생성된 가스들은 다이옥신과 퓨렌 그 외에 독가스로 재생되어지는 것을 막기 위하여 배기가스통(54)의 상부에 구비된 냉각수 분사노즐(541)을 통하여 냉각수가 분사되어 급속 냉각이 이루어지게 됨으로써, 완전한 분해처리가 이루어지게 된다.This reaction requires oxygen, hydrogen and Oechi in the process of gasification of contaminants containing poison gas and poison gas components, and by adding contaminants (hazardous gases) to be treated in flames of 2000 ℃ or higher. In addition, polymers of poison gas or poison gas components are decomposed into monomolecular substances, and oxygen and hydrogen are combined to generate carbon monoxide, carbon dioxide, hydrogen chloride and hydrogen fluoride. In order to prevent the gases generated in this process from being regenerated into dioxin, purene, and other poisonous gases, coolant is injected through the coolant injection nozzle 541 provided in the upper portion of the exhaust gas cylinder 54 to rapidly cool the gas. A complete decomposition process is achieved.
한편, 고온생성실(11)로 공급됨 물은 고온생성실(11)의 내벽을 따라 하부로 흐르는 과정에서 냉각됨에 따라 혼합몸체(10)가 과열되는 것을 방지할 수 있게 된다.On the other hand, the water supplied to the high temperature generation chamber 11 is cooled in the process flowing downward along the inner wall of the high temperature generation chamber 11 it is possible to prevent the mixing body 10 is overheated.
다음, 혼합실(12)에서 오염물질)과 혼합된 혼합기체는 반응몸체(30)의 반응실(301)에서 반응되어진 후 가스배출구(50)를 경유하여 일부는 배기가스 저장탱크(51)에 저장되어지며, 나머지는 배기가스통(54)과 배기관(53) 및 배기펌프(52)를 통해 외부로 배출되어지게 된다. 이때, 배기가스통(54)의 내부로 가스배출구(50)내의 가스가 가스순환펌프(501)와 가스분사관(502)을 통해 공급되어 분사되어지게 된다.Next, the mixed gas mixed with the contaminants in the mixing chamber 12 is reacted in the reaction chamber 301 of the reaction body 30, and then a part of the mixed gas is passed to the exhaust gas storage tank 51 via the gas outlet 50. The rest is discharged to the outside through the exhaust gas cylinder 54, the exhaust pipe 53 and the exhaust pump 52. At this time, the gas in the gas outlet 50 is supplied to the inside of the exhaust gas cylinder 54 through the gas circulation pump 501 and the gas injection pipe 502 to be injected.
또한, 냉각수 공급부(311)의 냉각수 분사노즐(312)을 통해 냉각수가 반응몸체(30)의 반응실(301) 상부에서 하부로 공급됨에 따라 반응의 효율이 높아질 수 있게 된다.In addition, as the cooling water is supplied from the upper portion of the reaction chamber 301 of the reaction body 30 to the lower portion through the cooling water injection nozzle 312 of the cooling water supply unit 311, the reaction efficiency may be increased.
*부호의 설명** Description of the sign *
A:고온발생장치 10:혼합몸체A: high temperature generator 10: mixed body
11:고온생성실 12:혼합실11: high temperature generation room 12: mixed room
20:고온발생헤드 21:헤드몸체20: high temperature generating head 21: head body
22:음극봉 23:공급노즐22: cathode rod 23: supply nozzle
24:물공급부 25:에어공급부24: water supply part 25: air supply part
26:오염물질 주입구 30:반응몸체26: pollutant injection hole 30: reaction body
31:플랜지 211:단턱홀31: flange 211: stephole
221:고전압발생부 231:알곤가스 공급부221: high voltage generation unit 231: argon gas supply unit
261:오염물질 공급부 301:반응실261: pollutant supply unit 301: reaction chamber
311:냉각수 공급부 312:냉각수 분사노즐311 coolant supply 312 coolant jet nozzle

Claims (4)

  1. 혼합몸체(10)의 상부에 고온발생헤드(20)가 결합되어지고, 상기 혼합몸체(10)의 하부에 반응몸체(30)가 결합되어지게 구성된 오염물질 분해처리용 고온발생장치(A)에 있어서,The high temperature generating head 20 is coupled to the upper portion of the mixing body 10, the reaction body 30 is coupled to the lower portion of the mixing body 10 to the high temperature generating device for pollutant decomposition treatment configured to be coupled In
    상기 혼합몸체(10)는 원통체의 내측에 상부를 향하는 고온생성실(11)이 관통되게 형성되어지며, 상기 고온생성실(11)의 하부에 원통체의 하부를 향하는 혼합실(12)이 관통되게 일체로 형성되어지고, 상기 고온발생헤드(20)는 헤드몸체(21)의 중앙에 하부로 단턱홀(211)이 관통되게 형성되어지며, 상기 단턱홀(211)에는 고전압발생부(221)에 접속된 음극봉(22)이 삽입되어지고, 상기 음극봉(22)과 단턱홀(211) 사이에 알곤가스 공급노즐(23)이 삽입되어지며, 상기 알곤가스 공급노즐(23)이 알곤가스 공급부(231)에 결합되어지고, 상기 혼합몸체(10)의 상부 일측에 물공급부(24)가 구비되어 고온생성실(11)로 물이 공급되게 결합되어지고, 상기 혼합몸체(10)의 상부 타측에 에어공급부(25)가 구비되어 상기 고온생성실(11)로 에어가 공급되게 구비되어지고, 상기 혼합실(12)로 오염물질을 공급하는 오염물질 공급부(261)에 연결된 오염물질 주입구(26)가 상기 혼합몸체(10)의 하부에 결합되어지고, 상기 반응몸체(30)는 내부에 하부로 좁아지는 반응실(301)이 관통되게 형성되어지고, 상기 반응몸체(30)의 상부가 혼합몸체(10)의 하부에 플랜지(31)로 결합되어지고, 상기 반응실(301)에 냉각수 공급부(311)에 연결된 냉각수 분사노즐(312)이 삽입되게 결합됨을 특징으로 하는 오염물질 분해처리용 고온발생장치. The mixing body 10 is formed so that the high temperature generating chamber 11 facing upwards inside the cylindrical body, and the mixing chamber 12 facing the lower portion of the cylindrical body below the high temperature generating chamber 11. It is integrally formed to penetrate, and the high temperature generating head 20 is formed so that the stepped hole 211 penetrates downward in the center of the head body 21, and the high voltage generating part 221 is formed in the stepped hole 211. A negative electrode rod 22 connected to the negative electrode rod 22 is inserted, and an argon gas supply nozzle 23 is inserted between the negative electrode rod 22 and the stepped hole 211, and the argon gas supply nozzle 23 is argon. It is coupled to the gas supply unit 231, the water supply unit 24 is provided on one side of the upper portion of the mixing body 10 is coupled to supply water to the high temperature generation chamber 11, of the mixing body 10 An air supply part 25 is provided on the other side of the upper part so that air is supplied to the high temperature generation chamber 11 and returned to the mixing chamber 12. The contaminant inlet 26 connected to the contaminant supply unit 261 for supplying a substance is coupled to the lower portion of the mixing body 10, and the reaction body 30 is narrowed downward in the reaction chamber 301. Is formed so as to penetrate, the upper portion of the reaction body 30 is coupled to the lower portion of the mixing body 10 by the flange 31, the cooling water injection nozzle connected to the cooling water supply unit 311 to the reaction chamber 301 High temperature generating device for pollutant decomposition treatment, characterized in that coupled to the insertion (312).
  2. 제1항에 있어서,The method of claim 1,
    상기 에어공급부(25)는 에어압축기(251)의 토출측에 구비된 에어공급관(252)이 혼합몸체(10)에 형성된 에어공급홀(253)의 외측에 결합되어지고, 상기 에어공급홀(253)의 내측에 에어공급노즐(254)이 결합되어지되, 상기 에어공급노즐(254)은 중공형의 에어확산링(254-1)에 에어분사홀(254-2)이 형성되어짐을 특징으로 하는 오염물질 분해처리용 고온발생장치. The air supply unit 25 is the air supply pipe 252 provided on the discharge side of the air compressor 251 is coupled to the outside of the air supply hole 253 formed in the mixing body 10, the air supply hole 253 The air supply nozzle 254 is coupled to the inside of the air supply nozzle 254 is characterized in that the air injection hole 254-2 is formed in the hollow air diffusion ring 254-1 High temperature generator for material decomposition treatment.
  3. 제1항에 있어서,The method of claim 1,
    상기 물공급부(24)는 물공급펌프(241)의 토출측에 구비됨 물공급관(242)이 혼합몸체(10)에 형성된 물공급홀(243)의 외측에 결합되어지고, 상기 물공급홀(243)의 내측에 물공급노즐(244)이 결합되어짐을 특징으로 하는 오염물질 분해처리용 고온발생장치. The water supply unit 24 is provided on the discharge side of the water supply pump 241 The water supply pipe 242 is coupled to the outside of the water supply hole 243 formed in the mixing body 10, the water supply hole 243 High temperature generator for pollutant decomposition treatment, characterized in that the water supply nozzle 244 is coupled to the inside of the).
  4. 제1항에 있어서,The method of claim 1,
    상기 혼합몸체(10)의 내부에 형성된 고온생성실(11)은 상기 혼합실(12)의 직경 보다 더 적게 형성되어지되, 상기 고온생성실(11)의 내주면에 요철링부(111)가 형성되어짐을 특징으로 하는 오염물질 분해처리용 고온발생장치. The high temperature generating chamber 11 formed inside the mixing body 10 is formed to be smaller than the diameter of the mixing chamber 12, but the uneven ring portion 111 is formed on the inner circumferential surface of the high temperature generating chamber 11. High-temperature generator for pollutant decomposition treatment, characterized in that.
PCT/KR2013/001810 2012-03-30 2013-03-06 Heat generating device for decomposing pollutants WO2013147432A1 (en)

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KR970002102A (en) * 1995-06-24 1997-01-24 김성줄 Incineration device of industrial waste malignant gas and waste oil and solid waste by prism
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* Cited by examiner, † Cited by third party
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