KR19990046729A - Apparatus for concentration the waste water evaporation - Google Patents
Apparatus for concentration the waste water evaporation Download PDFInfo
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- KR19990046729A KR19990046729A KR1019990013968A KR19990013968A KR19990046729A KR 19990046729 A KR19990046729 A KR 19990046729A KR 1019990013968 A KR1019990013968 A KR 1019990013968A KR 19990013968 A KR19990013968 A KR 19990013968A KR 19990046729 A KR19990046729 A KR 19990046729A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K28/00—Safety devices for propulsion-unit control, specially adapted for, or arranged in, vehicles, e.g. preventing fuel supply or ignition in the event of potentially dangerous conditions
- B60K28/10—Safety devices for propulsion-unit control, specially adapted for, or arranged in, vehicles, e.g. preventing fuel supply or ignition in the event of potentially dangerous conditions responsive to conditions relating to the vehicle
- B60K28/14—Safety devices for propulsion-unit control, specially adapted for, or arranged in, vehicles, e.g. preventing fuel supply or ignition in the event of potentially dangerous conditions responsive to conditions relating to the vehicle responsive to accident or emergency, e.g. deceleration, tilt of vehicle
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K26/00—Arrangements or mounting of propulsion unit control devices in vehicles
- B60K26/02—Arrangements or mounting of propulsion unit control devices in vehicles of initiating means or elements
- B60K26/021—Arrangements or mounting of propulsion unit control devices in vehicles of initiating means or elements with means for providing feel, e.g. by changing pedal force characteristics
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02D—CONTROLLING COMBUSTION ENGINES
- F02D41/00—Electrical control of supply of combustible mixture or its constituents
- F02D41/30—Controlling fuel injection
Abstract
본 발명은 재생하거나 정화하기가 어려운 산업체 폐수로서 수분이 90%이상의 산업체 폐수 중에 포함되어 있는 휘발성 유기물질(VOC) 및 각종 오염물질을 수중직하방식을 이용한 전자동 무인화장치의 고온에서 산화연소시켜 순수물과 오염물질을 분리하여 순수물은 수증기로서 대기중으로 기화되어 방출하거나 응집시켜 재 사용할 수 있고, 오염물질을 산화 연소시킴으로서 남게 되는 고형분(슬러지) 및 오염물질은 별도로 분리 배출하여 폐수처리를 간단하게 할 수 있도록 제안된 폐수 증발 농축장치에 관한 것임.The present invention is an industrial wastewater that is difficult to recycle or purify, pure water by oxidizing and burning volatile organic substances (VOC) and various contaminants contained in industrial wastewater of 90% or more of water at a high temperature of a fully automatic unmanned apparatus using a direct underwater method. By separating the pollutants and pollutants, pure water can be vaporized into the atmosphere and released or aggregated and reused.Soluble solids (sludge) and pollutants left by oxidative combustion of pollutants are separated and discharged to simplify wastewater treatment. The proposed wastewater evaporation concentrator is proposed.
Description
본 발명은 재생이나 정화하기 어려운 산업체 폐수를 수중직하방식을 이용한 전자동, 무인화장치의 고온에서 간단하게 처리할 수 있도록 제안된 폐수 증발 농축장치에 관한 것이다.The present invention relates to a wastewater evaporation concentrator proposed to simplify the treatment of industrial wastewater, which is difficult to regenerate or purify, at high temperatures in a fully automatic, unmanned apparatus using a submerged direct method.
일반적으로 정화하기 어려운 산업체 폐수는 90%이상의 수분과 대부분 휘발성 유기물질(VOC) 및 친화성 오염물질이 포함되어 있다.Industrial wastewater, which is generally difficult to purify, contains more than 90% water and most volatile organics (VOCs) and affinity pollutants.
본 발명은 이와 같은 산업체 폐수 중에 포함되어 있는 휘발유성 유기물질(VOC) 및 각종 친화성 오염물질을 수중 직하방식을 이용한 전자동 무인화장치의 고온에서 산화 연소시켜 순수물과 오염물질을 분리하여 순수물은 기화상태로서 대기중으로 방출되게 하거나 응집시켜 재 사용할 수 있도록 하며, 오??물질을 산화 연소시킨 후 남게 되는 고형분(슬러지) 및 오염물질은 별도로 배출함으로서 폐수 처리를 간단하게 할 수 있도록 하였다.The present invention oxidizes and burns gasoline organic substances (VOC) and various affinity pollutants contained in the industrial wastewater at high temperature in a fully automatic unmanned apparatus using a direct underwater method to separate pure water and pollutants. As the vaporized state, it is allowed to be released into the atmosphere or to be aggregated and reused, and the solids (sludge) and pollutants remaining after oxidative combustion of waste materials are discharged separately to simplify wastewater treatment.
종래에 휘발성 유기물질 등의 오염물질이 포함되어 정화하기 어려운 산업폐수를 야외에 방치할 경우 심한 악취를 발산하여 대기를 오염시켰으며, 정화되지 않은 휘발성 유기물질 등의 오염물질에 의하여 토양을 오염시킴으로서 지상은 물론 지하의 환경을 오염시키게 되는 폐단이 되었다.In the past, when industrial wastewater containing pollutants, such as volatile organic substances, is difficult to clean up, it emits severe odors and pollutes the air, and contaminates the soil with pollutants such as volatile organic substances that are not purified. It became a closure that polluted the ground as well as the underground environment.
종래의 이와 같은 폐단을 적게 하기 위하여 일부에서는 휘발성 유기물질 등의 오염물질이 포함되어 있는 산업폐수를 별도의 압축장치로서 착즙, 건조 시켰으나 이는 산업폐수의 분량은 줄일 수 있었으나 산업폐수의 근원이 되는 폐수 및 착즙물(슬러지)로 인한 환경오염을 적게 할 수는 없었다.In order to reduce the conventional waste, some of the industrial wastewater containing contaminants such as volatile organic substances was extracted and dried as a separate compression device, but the amount of industrial wastewater was reduced, but the wastewater which is the source of industrial wastewater And environmental pollution due to juice (sludge) could not be reduced.
본 발명은 종래의 결점을 적게 하기 위하여 연소관을 수중직하방식으로 설치하여 전자동, 무인화장치의 연소관의 내부로 LNG, LPG 또는 오일의 연소열기(불꽃)와 폐수를 직접 분사하여 산업폐수 중에 포함되어 있는 휘발성 유기물질(VOC) 및 각종 친화성 오염물질을 고온에서 산화 연소시켜 순수물과 오염물질을 분리하여 분리된 순수물은 수증기로 기화시켜 대기중으로 방출하거나 재 사용할 수 있도록 하며, 산화 연소된 고형분(슬러지) 및 오염물질 등은 별도로 분리 배출함으로서 산업폐수를 간편하게 처리할 수 있도록 함에 목적이 있다.In order to reduce the drawbacks of the prior art, the combustion pipe is installed in a water direct method to directly inject the combustion heat (flame) and waste water of LNG, LPG or oil into the combustion pipe of the fully automatic and unmanned apparatus, which is included in the industrial wastewater. The volatile organic substance (VOC) and various affinity pollutants are oxidized and burned at high temperature to separate pure water and pollutants, and the separated pure water is vaporized with water to be released into the atmosphere or reused. Sludge) and pollutants are separately discharged to facilitate the treatment of industrial wastewater.
도1은 본 발명의 외형을 보인 사시도.1 is a perspective view showing the appearance of the present invention.
도2는 본 발명의 외형을 보인 정면도.Figure 2 is a front view showing the appearance of the present invention.
도3은 본 발명의 본체를 발췌하여 보인 확대단면도.Figure 3 is an enlarged cross-sectional view showing an extract of the main body of the present invention.
※ 도면의 주요 부분에 대한 부호의 설명※ Explanation of codes for main parts of drawing
1. 본체 1a, 순수물탱크1.Main body 1a, pure water tank
2. 폐수저장탱크 2a. 폐수주입구2. Waste water storage tank 2a. Wastewater inlet
3. 폐수공급관 3a. 폐수공급조절콕3. Waste water supply line 3a. Wastewater Supply Control Cock
3b. 폐수공급구 4. 호퍼형폐수탱크3b. Wastewater Supply Port 4. Hopper Wastewater Tank
4a. 농축물(슬러지)배출관 5. 연도겸용수증기배출구4a. Concentrate (sludge) discharge pipe 5. Combined water vapor outlet
6. 수증기응집실 7. 배기통6. Steam condensation chamber
8. 폐수의수위 8a. 수위조절기의 수위8. Wastewater level 8a. Water level of the water level regulator
8b. 수도물의 수위 9. 스팀미세분할기8b. Tap water level 9. Steam splitter
9a. 미세구멍 10. 수중연소관9a. 10. Underwater Combustion Tube
10a. 관통구멍 11. 전자점화구10a. Through Hole 11. Electronic Flashlight
11a. 가스점화구 12. 불꽃감지기11a. Gas ignition 12. Flame detector
13. 버너 14. 폐수분사노즐13. Burner 14. Waste water spray nozzle
15. 압풍구 16. 폐수펌프15. Pressure port 16. Waste water pump
16a. 폐수압출관 17. 공기송풍기16a. Wastewater Extrusion Line 17. Air Blower
17a. 송풍관 18. 가스통17a. Blower tube 18. Gas cylinder
19. 콘트롤박스 20. 순수물배출구19. Control box 20. Pure water outlet
21. 수위조절구 21a. 수위조절기21. Water level regulator 21a. Water level regulator
21b. 공기호스 22. 투시창21b. Air hose 22. Viewing window
23. 가스압조절구 24. 수도물공급구23. Gas pressure regulator 24. Tap water supply
순수물탱크(1a)를 형성한 본체(1)과 폐수유입구(2a)를 설치한 폐수저장탱크(2)를 구비하여 폐수공급조절콕(3a)를 설치한 폐수공급관(3)으로 본체(1)의 폐수공급구(3b)로 연결한다. 본체(1)의 내부에는 호퍼형폐수탱크(4)를 설치하되, 하부로는 농축물(슬러지) 배출관(4a)을 설치하며, 상부로는 연도 겸용 수증기배출구(5)를 형성하여 연도겸용 수증기배출구(5)와 연통하는 수증기응집실(6)과 배기통(7)을 설치하였으며, 수증기응집실(6)은 순수물탱크(1a)와 연통하였다. 호퍼형폐수탱크(4)의 내부에 형성되는 수위(8)과 근접한 수직 하방으로는 다수의 미세구멍(9a)를 뚫은 스팀미세분할기(9) 및 둘레부에 다수의 관통구멍(10a)를 뚫어 형성한 수중연소관(10)을 일측으로 경사지게 설치하되, 타측으로는 전자점화구(11)에 의하여 작동하는 가스점화구(11a)와 불꽃감지기(12)를 설치한 버너(13)을 고정설치하며, 버너(13)의 점화구(11)의 둘레부에는 폐수압출관(16a)와 연통하는 폐수분사노즐(14) 및 송풍관(17a)와 연통하는 압풍구(15)를 설치하였다. 폐수저장탱크(2)의 하방에는 폐수펌프(16)와 공기송풍기(17) 및 가스통(18)을 설치하였다. 상기 폐수분사노즐(14)은 폐수압출관(16a)에 의하여 폐수펌프(16)에 연결하였으며, 폐수압출관(16a)는 상기 수증기응집실(6)의 내부를 통과하도록 설치하여 수증기의 응집효율을 높이도록 하였다. 압풍구(15)는 송풍관(17a)에 의하여 공기송풍기(17)에 연결하였다. 상기의 버너(13)은 가스체크밸브(18b)를 설치한 가스공급관(18a)에 의하여 가스통(18)에 연결하였다.A wastewater supply pipe (3) having a wastewater storage tank (2) provided with a main body (1) having a pure water tank (1a) and a wastewater inlet (2a) is provided with a wastewater supply pipe (3). ) To the wastewater supply port (3b). A hopper type wastewater tank 4 is installed inside the main body 1, but a condensate (sludge) discharge pipe 4a is installed at a lower portion thereof, and a combined use steam discharge outlet 5 is formed at an upper portion thereof to produce a combined use steam. A steam condensing chamber 6 and an exhaust cylinder 7 communicating with the outlet 5 were installed, and the steam condensing chamber 6 communicated with the pure water tank 1a. In the vertical down close to the water level (8) formed in the hopper type wastewater tank (4), a plurality of through holes (10a) are drilled through the steam fine splitter (9) and the periphery of the plurality of fine holes (9a). The formed underwater combustion pipe 10 is installed to be inclined to one side, and the other side is fixed to the burner 13 provided with the gas ignition opening 11a and the flame detector 12 operated by the electronic ignition opening 11, and the burner At the periphery of the ignition port 11 of (13), a wastewater spray nozzle 14 communicating with the wastewater extrusion pipe 16a and a blasthole 15 communicating with the blowing pipe 17a were provided. Below the wastewater storage tank 2, a wastewater pump 16, an air blower 17, and a gas cylinder 18 are provided. The waste water injection nozzle 14 is connected to the wastewater pump 16 by a wastewater extrusion pipe 16a, and the wastewater extrusion pipe 16a is installed to pass through the interior of the steam agglomeration chamber 6 to coagulate efficiency of water vapor. To increase. The air vent 15 was connected to the air blower 17 by the blower tube 17a. The burner 13 is connected to the gas cylinder 18 by a gas supply pipe 18a provided with a gas check valve 18b.
본체(1)의 외주벽 일측에는 콘트롤박스(19)와 순수물배출구(20) 및 폐수저장탱크(2)의 내부에 설치한 수위조절구(21) 및 공기호스(21b)와 관련하여 구성시킨 수위조절기(21a)를 설치하며, 본체(1)의 외주벽 상부에는 투시창(22)를 설치하였으며, 본체(1)의 외주벽 타측에는 가스압조절구(23)과 수도물공급구(24)를 설치하였다.On the outer circumferential wall of the main body 1, the control box 19, the pure water discharge port 20, and the water level control port 21 and the air hose 21b installed in the waste water storage tank 2 are formed. The water level regulator 21a is installed, and a viewing window 22 is installed on the outer circumferential wall of the main body 1, and a gas pressure regulator 23 and a tap water supply port 24 are installed on the other side of the outer circumferential wall of the main body 1. It was.
이와 같은 본 발명은 폐수저장탱크(2) 내부의 폐수를 폐수공급관(3)을 통하여 본체(1)에 설치한 폐수공급구(3b)를 통하여 호퍼형폐수탱크(4)의 내부로 주입되게 되는데, 이때 폐수저장탱크(2)의 내부에 설치한 수위조절기(21a) 내부의 수위(8a)에 따라 호퍼형폐수탱크(4) 내부의 폐수의수위(8)에 근접한 수직하방으로 수중연소관(10)이 잠길 정도로 폐수의 수위(8)을 항상 일정하게 유지하도록 한다.In the present invention, the wastewater inside the wastewater storage tank 2 is injected into the hopper-type wastewater tank 4 through the wastewater supply port 3b installed in the main body 1 through the wastewater supply pipe 3. At this time, according to the water level (8a) inside the water level regulator (21a) installed in the wastewater storage tank (2), the submerged combustion pipe (10) vertically close to the water level (8) of the wastewater in the hopper type wastewater tank (4) Keep the water level (8) constant at all times so that) is locked.
이와 같은 상태에서 수도물공급구(24)를 통하여 수돗물 등의 깨끗한 물을 호퍼형폐수탱크(4) 내에 채워 준다.In this state, the tap water supply port 24 fills the hopper-type wastewater tank 4 with clean water such as tap water.
도면 중 8b는 수돗물의 수위를 표시한 것이다.8b of the figure shows the water level.
기타 가스량 등의 각부의 안전상태를 이상이 없도록 점검한 다음 콘트롤박스(19)에 의하여 가동스위치 등을 조작하여 공기송풍기(17)을 가동시켜줌으로서 공기압력에 의하여 수중연소관(10) 내부의 폐수가 밀려나면서 수중연소관(10)의 내부에 공간이 형성되게 되는데, 이때 가스체크밸브가 열리게 되어 전자점화장치에 의하여 가스점화구(11a)가 점화되면서 버너(13)이 가동되어 화염(불꽃)을 발생한다.After checking the safety status of each part such as the amount of gas, the waste box in the underwater combustion pipe 10 is operated by air pressure by operating the air blower 17 by operating the operation switch and the like by the control box 19. As it is pushed out, a space is formed inside the underwater combustion pipe 10. At this time, the gas check valve is opened, and the burner 13 is operated by igniting the gas ignition port 11a by the electronic ignition device to generate a flame. .
이와 같이 가스점화구(11a)의 점화가 완료되면, 폐수펌프(16)에 의하여 폐수가 펌핑되어 폐수분사노즐(14)를 통하여 분사되는 분사폐수는 수중연소관(10)의 내부에서 연소가 이루어지면서 연소가 완료된 분사폐수는 수중연소관(10)의 둘레부에 뚫어 설치한 다수의 관통구멍(10a)를 통하여 기화상태의 수증기로 방출되어 스팀미세분할기(9)의 미세구멍(9a)를 통하여 폐수 속을 통과하여 열을 전달하면서 수증기배출구(5)로 배출되어 수증기응집실(6)을 통하여 배기통(7)로 배출된다.When the ignition of the gas ignition outlet 11a is completed as described above, the wastewater is pumped by the wastewater pump 16 and the injection wastewater injected through the wastewater spray nozzle 14 is burned while the combustion is made inside the underwater combustion pipe 10. Completed injection wastewater is discharged into the vapor in the vaporized state through a plurality of through-holes (10a) installed in the periphery of the submerged combustion pipe (10) through the fine holes (9a) of the steam fine separator (9) While passing through the heat transfer to the steam discharge port (5) is discharged through the steam condensing chamber (6) to the exhaust pipe (7).
이때 산업폐수에 함유되어 있는 휘발성 유기물 및 제반 친유성 오염물질이 연소되고 남은 재나 찌꺼기는 농축 상태로서 호퍼형폐수탱크(4)의 아래로 가라 앉게 되고, 기화상태의 수증기는 수증기응집실(6)을 통과하는 과정에서 응집되어 순수물탱크(1a)의 내부로 흘러 내려 모인 순수한 물은 순수물배출구(20)으로 배출시켜 적절하게 사용하게 된다.At this time, the volatile organics and all the lipophilic contaminants contained in the industrial wastewater are burned, and the ashes and residues are concentrated. Pure water that is aggregated in the process of passing through and flowed down into the inside of the pure water tank 1a is discharged to the pure water discharge port 20 to be used properly.
이와 같이 된 본 발명은 산업폐수중에 포함되어 있는 휘발성 유기물질(VOC) 및 각종 친화성 오염물질을 수중직하 연소방식에 의하여 고온으로 연소시켜 순수물과 고형물(슬러지) 및 오염물질(찌꺼기)로서 분리배출함으로서 산업폐수는 최소량의 고형물(슬러지) 및 오염물(찌꺼기)로서 간편하게 처리되어 버리므로 산업폐수의 방치로 인한 대기 및 토양의 오염을 적게 함으로써 지상이나 지하의 환경공해를 적게 할 수 있다.In the present invention, volatile organic substances (VOC) and various affinity pollutants contained in industrial wastewater are burned at a high temperature by a direct underwater combustion method to be separated into pure water, solids (sludge) and pollutants (waste). By discharging, industrial wastewater is easily treated as a minimum amount of solids (sludge) and pollutants (dust), so that the pollution of the air and soil due to the neglect of industrial wastewater can be reduced to reduce the environmental pollution on the ground or underground.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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KR100353137B1 (en) * | 1999-11-22 | 2002-09-19 | 주식회사 아쿠아플랜츠 | apparatus for treatment of water |
KR100505099B1 (en) * | 2002-02-07 | 2005-08-04 | 문순식 | Device for manufacturing sujong(micro cluster water essence) |
KR101421386B1 (en) * | 2013-12-26 | 2014-07-18 | 현대건설주식회사 | Seawater Desalination System |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR100353137B1 (en) * | 1999-11-22 | 2002-09-19 | 주식회사 아쿠아플랜츠 | apparatus for treatment of water |
KR100505099B1 (en) * | 2002-02-07 | 2005-08-04 | 문순식 | Device for manufacturing sujong(micro cluster water essence) |
KR101421386B1 (en) * | 2013-12-26 | 2014-07-18 | 현대건설주식회사 | Seawater Desalination System |
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