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公开(公告)号:KR100886465B1
公开(公告)日:2009-03-04
申请号:KR1020070072805
申请日:2007-07-20
Applicant: 조경복
Abstract: 본 발명은 오존(O
3 ) 및 오존 수를 이용한 악취 제거 방법 및 그 시스템에 관한 것으로, 산소(O
2 )를 방전 공간에 공급한 후 고압으로 방전시켜 오존(O
3 )을 발생시키고 상기 방전 공간에서 발생한 고열을 냉각수(H
2 O)로 냉각하는 오존 발생 시스템(1000)과; 상기 오존 발생 시스템으로부터 냉각수(H
2 O)과 오존(O
3 )이 혼합된 용존 용액(O
3 +H
2 O)을 공급받고 상기 용존 용액과 악취가스를 반응시켜 1차로 악취를 제거한 가스를 배출하고 상기 용존 용액과 악취가 혼합된 폐수를 배출하는 제 1 악취 제거기(200);
상기 제 1 악취 제거기(200)로부터 가스를 공급받아 오존(O 3 )을 이용하여 2차로 악취를 제거한 가스를 배출하는 제 2 악취 제거기(300); 및, 상기 제 1 악취 제거기(200)로부터 배출되는 폐수를 정화 처리하여 배출하는 폐수 정화 시스템(2000);을 포함하여 구성함으로써, 하수나 오수 등의 폐수처리장, 분뇨 및 축산 폐수처리장, 쓰레기 매립장, 비료공장 등에서 발생하는 악취뿐만 아니라 고농도의 축산폐수 및 인 분뇨 폐수 등에서 발생하는 악취를 오존(O
3 ) 및 오존 수(O
3 +H
2 O)를 이용하여 정화 처리할 수 있다.
오존, 악취, 폐수, 정화, 정수, 제거, 산소-
公开(公告)号:KR100902138B1
公开(公告)日:2009-06-10
申请号:KR1020070072806
申请日:2007-07-20
Applicant: 조경복
Abstract: 본 발명은 오존(O
3 )을 이용한 폐수 정화 장치에 관한 것으로, 전압을 공급하는 전원부와; 산소(O
2 )를 발생하는 산소 발생부와; 폐수를 저장 및 공급하는 수조와; 상기 전원부로부터 전압을 수신하여 고압을 발생시키는 고압 발생부와; 상기 수조로부터 공급된 폐수와 오존(O
3 )의 혼합물과 오존 발생기에서 발생된 오존(O
3 )을 혼합하여 배출하는 순환 펌프부와; 상기 순환펌프로부터 배출되는 오존(O
3 )과 폐수를 정화 처리한 물(H
2 O)의 혼합물을 공급받아 분사하여 배출하는 분사 펌프부와; 상기 순환 펌프부 또는 상기 분사 펌프부로부터 배출되는 혼합물을 공급받아 상기 오존(O
3 )과 폐수의 용존율을 높이기 위해 순환시켜 배출하는 용존부; 및 상기 산소 발생부로부터 발생된 산소(O
2 ) 또는 공기를 방전 공간에 공급하고 상기 고압 발생부로부터 수신된 고압을 상기 방전 공간에 방전하여 오존(O
3 )을 발생시키고 상기 용존부로부터 배출되는 오존(O
3 )과 폐수의 혼합물을 공급받아 상기 방전 공간에서 발생된 고열을 냉각시킨 후 상기 수조로 배출하는 오존 발생기;를 포함하며, 상기 오존(O
3 )과 폐수의 혼합물이 상기 순환 펌프부, 상기 분사 펌프부, 상기 용존부, 상기 오존 발생기 및 상기 수조를 순환하면서 상기 오존(O
3 )에 의해 상기 폐수를 정화 처리하는 것을 특징으로 한다.
오존발생장치, 오존, 산소, 방전, 전극, 냉각, 히트싱크-
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公开(公告)号:KR1020090009493A
公开(公告)日:2009-01-23
申请号:KR1020070072806
申请日:2007-07-20
Applicant: 조경복
CPC classification number: C02F1/78 , C02F1/72 , C02F2201/002 , C02F2201/782
Abstract: A system for disposing sewage using ozone(O3) is provided to reduce conspicuously high heater generated from a process where silent discharge is created between a first electrode and a second electrode using cooling water or refrigerant. A system for disposing sewage using ozone(O3) comprises a power supply unit(600), an oxygen generator(700), a water tub(200), a high pressure generating part(610), a circulation pump part(300), a diffusion pump part(400), a dissolved part(500), an ozonizer(100). The power supply unit supplies a voltage. The oxygen generator generates oxygen(O2). Effluent is stored and supplied in a water tub. The high pressure generating part receives voltage from the power supply unit and generates the high pressure. The circulation pump part mixes and ejects the ozone generated from an ozonizer and a mixture of the effluent supplied from water tub and ozone. The diffusion pump part receives, sprays and ejects a mixture of water(H2O) purified and processed from the effluent and the ozone ejected from the circulating pump. The dissolved part receives, circulates and ejects a mixture ejected from the circulation pump part or the diffusion pump part in order to enhance a dissolves rate of the effluent and the ozone.
Abstract translation: 提供了使用臭氧(O3)处理污水的系统,以减少使用冷却水或制冷剂在第一电极和第二电极之间产生静音放电的过程产生的显着高的加热器。 使用臭氧(O3)处理污水的系统包括供电单元(600),氧气发生器(700),水桶(200),高压产生部件(610),循环泵部件(300) 扩散泵部分(400),溶解部分(500),臭氧化物(100)。 电源单元提供电压。 氧气发生器产生氧气(O2)。 流出物被储存并供应到水桶中。 高压发生部分从电源单元接收电压并产生高压。 循环泵部分混合并喷出从臭氧发生器产生的臭氧和从水桶和臭氧供应的流出物的混合物。 扩散泵部分接收喷射并排出从流出物中纯化和处理的水(H2O)和从循环泵排出的臭氧的混合物。 溶解部分接收,循环和喷出从循环泵部分或扩散泵部分喷出的混合物,以便提高流出物和臭氧的溶解速率。
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Patent Agency Ranking
公开(公告)号:KR100856863B1
公开(公告)日:2008-09-04
申请号:KR1020070050494
申请日:2007-05-23
Applicant: 조경복
CPC classification number: C01B13/11 , A23L3/3409 , A61L2/202 , A61L9/015 , C01B2201/62 , C01B2201/72 , C01B2201/76 , C02F1/78
Abstract: An ozone generating system is provided to increase solubility by circulating a portion of ozone water, remarkably reduce heat of high temperatures generated in a process of generating silent electrical discharge using cooling water or refrigerant, and minimize consumption of power and maximize service life of the system by efficiently cooling discharge heat generated during the electrical discharge. An ozone generating system comprises: a power supply part(600) for supplying power; an oxygen generating part(700) for generating oxygen; a water tank(200) for storing and supplying cooling water; a high voltage generating part(610) for receiving a voltage from the power supply part to generate a high voltage; a circulating pump part(300) for mixing cooling water supplied from the water tank with ozone generated from the ozone generating part to discharge the mixture; an ozone generating part(100) which generates ozone by supplying oxygen or air generated from the oxygen generating part into a discharge space and discharging the high voltage received from the high voltage generating part in the discharge space, and which discharges the cooled mixture to the water tank after cooling heat of high temperatures generated in the discharge space with the mixture by receiving the mixture of the ozone and the cooling water discharged from the circulating pump; and a spray pump part(400) for receiving the mixture of the ozone and the cooling water discharged from the ozone generating part to spray and discharge the mixture. The ozone generating system further comprises a dissolving part(500) for receiving the mixture discharged from the circulating pump part or the spray pump part, circulating the mixture to increase solubility of the ozone and cooling water, and discharging the circulated mixture to the ozone generating part.
Abstract translation: 提供臭氧发生系统以通过循环臭氧水的一部分来增加溶解度,显着降低在使用冷却水或制冷剂产生静音放电的过程中产生的高温热,并最大限度地降低功率消耗并最大化系统的使用寿命 有效地冷却在放电期间产生的放电热。 臭氧发生系统包括:供电部分(600),用于供电; 用于产生氧气的氧气产生部分(700); 用于储存和供应冷却水的水箱(200); 用于从电源部分接收电压以产生高电压的高电压产生部分(610); 用于将从水箱供应的冷却水与由臭氧发生部产生的臭氧混合的循环泵部分(300)以排出混合物; 产生臭氧的臭氧发生部(100),其通过将从所述氧发生部产生的氧气或空气供给到放电空间中并且从所述放电空间中的高电压产生部接收的高电压放电而产生臭氧,并将所述冷却后的混合物 通过接收从循环泵排出的臭氧和冷却水的混合物,通过混合物在放电空间中产生的高温冷却后的水箱; 以及用于接收从臭氧产生部件排放的臭氧和冷却水的混合物以喷射和排出混合物的喷雾泵部分(400)。 臭氧发生系统还包括用于接收从循环泵部分或喷雾泵部分排出的混合物的溶解部分(500),使混合物循环以增加臭氧和冷却水的溶解度,并将循环的混合物排放到产生臭氧的装置 部分。
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公开(公告)号:KR1020090009492A
公开(公告)日:2009-01-23
申请号:KR1020070072805
申请日:2007-07-20
Applicant: 조경복
CPC classification number: A61L9/015 , A61L9/00 , A61L2209/11 , A61L2209/16 , A61L2209/212 , C01B13/10 , F24F3/12
Abstract: A method for removing bad smell and the system for the same are provided, which purify bad smell by using the ozone(O3) and ozonated water(O3+H2O). A system for removing bad smell comprises: an ozone generation system(1000) which supplies oxygen(O2) to the discharge space, generates the ozone(O3) by discharging by the high pressure, and cools the high heat generated in the discharge space; and a first bad smell removing apparatus(200) which is supplied with the cooling water(H2O) and ozone(O3) from the ozone generation system, discharges the gas in which the bad smell is removed by reacting the dissolution solution and bad smell gas, and discharges waste in which the dissolution solution and bad smell are mixed; and a waste water removing apparatus.
Abstract translation: 提供了一种消除不良气味的方法及其系统,通过使用臭氧(O3)和臭氧水(O3 + H2O)来净化不良气味。 一种消除不良气味的系统包括:向放电空间供应氧气(O 2)的臭氧发生系统(1000),通过高压排放产生臭氧(O3),并冷却在放电空间中产生的高热; 和从臭氧发生系统供给了冷却水(H 2 O)和臭氧(O 3)的第一不良气味除去装置),通过使溶解溶液和不良气味气体反应来排出除去臭气的气体 并排出其中溶解溶液和不良气味混合的废物; 和废水除去装置。
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公开(公告)号:KR100856862B1
公开(公告)日:2008-09-04
申请号:KR1020070049828
申请日:2007-05-22
Applicant: 조경복
CPC classification number: C01B13/11 , C01B2201/12 , C01B2201/62 , C01B2201/72 , C01B2201/76
Abstract: An ozone generating apparatus is provided to increase solubility by circulating a portion of ozone water, remarkably reduce heat of high temperatures generated in a process of generating silent electrical discharge using cooling water or cooling air, promptly cool heat of high temperatures generated in the discharge space by cooling water or cooling air flowing through an electrode pipe, and minimize consumption of power and maximize service life of the apparatus by efficiently cooling discharge heat generated during the electrical discharge. An ozone generating apparatus comprises: a first electrode pipe(110) which forms a first electrode, and has cooling material flowing through an inner space thereof; a dielectric pipe(120) which is spaced apart from the first electrode pipe in a predetermined distance to form a discharge space, and which induces the generation of ozone in the discharge space; a heat sink(130) which is placed on an outer part of the dielectric pipe, integrally forms a second electrode pipe(131) for forming a second electrode, and radiates heat generated in the discharge space; a nonconductive first stopper(140a) which is clamped to one side of the second electrode pipe, to which the first electrode pipe and one side of the dielectric pipe are fixed, and in which an air stream inlet(142a) for flowing oxygen or air into the discharge space is formed, and a cooling inlet(141a) for flowing cooling material into the inner space of the first electrode pipe is formed; and a nonconductive second stopper(140b) which is clamped to the other side of the second electrode pipe, to which the first electrode pipe and the other side of the dielectric pipe are fixed, and in which an air stream outlet(142b) for flowing out oxygen or air from the discharge space is formed, and a cooling outlet(141b) for flowing out cooling material from the inner space of the first electrode pipe is formed. Further, the cooling material is cooling water or refrigerant.
Abstract translation: 提供一种臭氧发生装置,通过循环臭氧水的一部分来增加溶解度,显着降低在使用冷却水或冷却空气产生静音放电的过程中产生的高温热,迅速冷却在放电空间中产生的高温 通过冷却流过电极管的水或冷却空气,并且通过有效地冷却在放电期间产生的放电热量来最小化功率消耗并使设备的使用寿命最大化。 臭氧发生装置包括:第一电极管(110),其形成第一电极,并且具有流过其内部空间的冷却材料; 电介质管(120),其与所述第一电极管隔开预定距离以形成放电空间,并且在所述放电空间中产生臭氧; 放置在电介质管的外部的散热器(130),一体地形成用于形成第二电极的第二电极管(131),并且辐射在放电空间中产生的热量; 被固定在所述第一电极管和所述电介质管一侧的所述第二电极管的一侧的非导电性第一止动件(140a),其中,用于使氧气或空气流动的空气流入口(142a) 形成放电空间,并且形成用于使冷却材料流入第一电极管的内部空间的冷却入口(141a) 和固定有所述第一电极管和所述电介质管的另一侧的所述第二电极管的另一侧的非导电性的第二止动件(140b),并且其中流过所述第一电极管和所述电介质管的另一侧的空气流出口(142b) 形成从放电空间排出氧气或空气,形成用于从第一电极管的内部空间流出冷却材料的冷却出口(141b)。 此外,冷却材料是冷却水或制冷剂。
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公开(公告)号:KR100825201B1
公开(公告)日:2008-04-28
申请号:KR1020070031361
申请日:2007-03-30
Abstract: A method of storing fresh ginseng for a long time by cutting the main body without damaging the rhizome, main body, lateral root and fibrous root and storing in a transparent container filled with honey is provided to enable a user to identify the age and entire growth process of the fresh ginseng. A long term storage of fresh ginseng is achieved by the steps of: washing 6-year-old fresh ginseng with purified water without damaging the rhizome(1), main body(2), lateral root(3) and fibrous root(4); placing one by one in a drainable container and drying at 15 to 18deg.C for 10hr in the shade; cutting the side of the main body at 10mm intervals from the rhizome; and putting the fresh ginseng(8) with a cut part(7) one by one into a transparent container(5) and filling with honey(6). The cutting of the side of the main body contains: cutting 1/3 of the diameter of the main body; and alternately cutting the main body one time left and right while leaving 2/3 of the diameter.
Abstract translation: 通过切割主体而不损坏根茎,主体,侧根和纤维根并储存在装满蜂蜜的透明容器中的方法来储存新鲜人参,以使用户能够识别年龄和整个生长 新鲜人参的过程。 通过以下步骤实现新鲜人参的长期储存:用纯净水洗涤6岁的新鲜人参,而不损伤根茎(1),主体(2),侧根(3)和纤维根(4) ; 一个接一个地放在可排水的容器中,并在阴凉处15至18℃干燥10小时; 从根茎以10mm间隔切割主体侧面; 并将新鲜人参(8)用切割部分(7)逐个放入透明容器(5)中并填充蜂蜜(6)。 主体侧面的切割包括:切割主体直径的1/3; 并交替地切割主体一次左右,同时留下2/3的直径。
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