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    • 1. 发明授权
    • 관로 고정형 분리막 손상 검측장치
    • 用于检测膜模块流量的装置
    • KR101512704B1
    • 2015-04-17
    • KR1020140141590
    • 2014-10-20
    • 지우이앤이(주)세종대학교산학협력단
    • 이재원김희준이승우안상우조진우김초아
    • B01D65/10B01D65/00
    • B01D65/102G01N15/082G01N2015/086
    • 본발명은자외선이조사되면발광하게되는형광나노입자로이루어진트레이서(tracer)가분리막을통과하여흐르는지를촬영하여분리막의손상여부를측정하되, 분리막을통과한유체가흐르게되는관로에고정설치되고, 유무선통신에의해원격지에서트레이서의촬영여부등을관리자가쉽게확인할수 있도록구성한관로고정형분리막손상검측장치에관한것이다. 본발명에서는분리막을지난유체를배출시키는배출관로(200)의중간에설치되며; 내관(11)과외관(12)으로이루어진 2중관(pipe)의구성을가지는관 본체(1)를포함하며; 내관(11)과외관(12) 사이의간격에는종방향으로연장되어있으며자외선을내관(11)의내부를향하여조사(照射)하는 UV 조사부재(2)가관 본체(1)의원주를따라복수개로간격을두고배치되어있고; 내관(11)의내부로유체와함께흐르는형광나노입자로이루어진트레이서(tracer)를촬영하는촬영장치(3)가외관(12)의측면에설치되어있는구성을가지고있어서; 분리막을지나서내관(11)을통과하는유체의영상을촬영장치(3)로촬영하여, 촬영된영상에트레이서의형광이미지가존재하는지의여부에따라분리막의손상여부를검출하는것을특징으로하는관로고정형분리막손상검측장치가제공된다.
    • 本发明涉及一种用于检测固定在管道中的膜损伤的装置,其中通过拍摄通过成膜来检测由紫外线照射时由荧光纳米颗粒组成的发光的示踪剂是否流经膜; 示踪器被安装并固定在流体将流过膜的管道中; 并且经理可以通过有线/无线通信轻松地从远程位置检查示踪器的拍摄。 本发明安装在排放管道(200)的中间,以排出穿过膜的流体; 并且包括形成在内管(11)和外管(12)的双管中的管体(1)和在内管(11)和内管(11)之间垂直延伸的多个UV散热构件 所述外管(12)沿着所述管体(1)的圆周间隔开以辐射所述内管(11)内的UV; 以及安装在所述外管(12)侧的成膜装置(3),以使由所述内管(11)内的流体流动的荧光纳米颗粒制成的示踪剂成膜。 如果在视频中存在示踪剂的荧光图像,则成像装置(3)将通过膜的流体和然后内管(11)的膜流过膜,以便检测膜损伤。
    • 2. 发明授权
    • 선별적 자외선 조사를 이용한 분리막 손상 검측장치
    • 用于检测膜模块流量的装置
    • KR101526928B1
    • 2015-06-09
    • KR1020140139735
    • 2014-10-16
    • 지우이앤이(주)세종대학교산학협력단
    • 이재원김희준이승우안상우조진우김초아
    • B01D65/10
    • B01D65/10B01D65/102
    • 본발명은자외선이조사되면발광하게되는형광나노입자로이루어진트레이서(tracer)가분리막을통과하여흐르는지를촬영하여분리막의손상여부를측정하되, 다양한파장을가지는자외선이조사될수 있도록구성되어트레이서의흡광도에따라트레이서가선명하게촬영될수 있도록하는자외선을선별적으로조사할수 있게구성된 "선별적자외선조사를이용한고정형분리막손상검측장치"에관한것이다. 본발명에서는유체흐름관(2), UV 조사부재(1); 및촬영장치(3)를포함하며; UV 조사부재(1)의발광면에는, 복수개의발광부(11)가종방향으로열을이루어서배치되어있으며; 복수개의발광부(11)는상이한파장의자외선을조사하는복수개종류로이루어져있어서; 분리막을지나서유체흐름관(2)을통과하는유체의영상을촬영장치(3)로촬영하여, 촬영된영상에트레이서의형광이미지가존재하는지의여부에따라분리막의손상여부를검출하되, 트레이서의형광나노물질종류에따라복수개의발광부(11) 를선별적으로작동시켜서자외선을조사할수 있도록구성되어있는것을특징으로하는분리막손상검측장치가제공된다.
    • 本发明涉及一种使用选择性紫外线辐射检测对分离膜的损害的装置,该装置通过拍摄当紫外线是否为紫外线时是否发射荧光纳米粒子的示踪剂,来测量分离膜是否损坏, 照射,通过分离膜流动,并且被配置为照射具有用于示踪剂的各种波长的紫外线以相对于示踪剂的吸光度被清楚地记录。 根据本发明,用于检测对分离膜的损伤的装置包括流体管(2),UV照射构件(1)和摄影装置(3),其中多个发光部分(11)是 在紫外线照射部件(1)的发光面上沿垂直方向成一列排列的多个发光部(11),多个用于照射不同波长的紫外线的发光部(11),流体 由分离膜通过并通过流体管(2)的图像由摄影装置(3)记录,以便根据是否存在示踪剂的荧光图像来检测分离膜是否损坏 记录图像和多个发光部分(11)根据示踪剂的荧光纳米材料的种类被选择性地操作,以便用紫外线照射。
    • 4. 发明授权
    • 방사형 수평 주입정과 수평 추출정을 이용한 오염토양 정화시스템 및 오염토양 정화방법
    • 用于净化污染土壤的系统和方法
    • KR101461214B1
    • 2014-11-18
    • KR1020140051690
    • 2014-04-29
    • 지우이앤이(주)주식회사 인프라웍스
    • 이동호이재원이승우유경민신우식이정길
    • B09C1/02
    • B09C1/02
    • 본 발명은 지중에 연직하게 천공되는 주 수직정(10)을 형성하고, 상기 주 수직정(10)을 중심으로 하여 오염구역(S)의 지중에 방사형으로 배치된 복수개의 수평 주입정(1)을 형성하며, 상기 주 수직정(10)을 중심으로 하여 오염구역(S)의 지중에 방사형으로 배치되어 있되 이웃하는 수평 주입정(1) 사이의 간격에 배치되어 상기 수평 주입정(1)과 교번하여 위치하는 수평 추출정(2)을 형성하여, 수평 주입정(1)으로 오염제거제를 공급하여 오염토양으로 주입시키고 오염제거제와 함께 수평 추출정(2)으로 유입된 오염물질을 지상으로 반출시키는 구성을 가지는, 방사형 수평 주입정과 수평 추출정을 이용한 오염토양 정화시스템 및 오염토양 정화방법에 관한 것이다.
    • 本发明涉及一种使用径向水平注射井净化污染土壤的系统和方法,以及一种水平提取井,包括:垂直形成在土壤中并对土壤穿孔的主垂直井(10) 在污染土壤(S)中相对于主垂直井(10)以径向形状布置的多个水平注入井(1); 以及在污染土壤(S)中以径向形状安装在水平注入井(1)与主垂直井(10)之间的间隙中的水平提取井(2),并且交替地位于水平 注射井(1); 因此在水平注射井(1)中提供污染物去除剂并将其注入污染的土壤中可以将接收在水平提取井(2)中的污染物质和污染物质排出土壤。
    • 5. 发明授权
    • 단계별 연속식 고도선별과 오염부하별 차등식 중금속 제거공정을 결합한 고농도 오염토양 정화시스템 및 정화방법
    • 通过连续排序高分辨率高浓度土壤的分离和重金属去除方法的系统和方法
    • KR101375482B1
    • 2014-03-18
    • KR1020130059176
    • 2013-05-24
    • 현대건설주식회사주식회사 알파환경엔지니어링(주)에스지알테크지우이앤이(주)
    • 정준교강완협채희훈김강석서용식김수홍이승우
    • B09C1/08B09C1/02B09C1/00
    • B09C1/02B09C1/08
    • The present invention relates to a system and method for purifying a high concentration of contaminated soil, which is combined with a phased continuous advanced sorting process and a pollution load-differential heavy metal removing process. In more particular, the present invention relates to a system combined with a phased continuous advanced sorting process and a pollution load-differential heavy metal removing process for purifying a high concentration of contaminated soil, which is characterized in comprising: a measuring part for measuring a pollution level to measure a heavy metal concentration of contaminated soil; a pre-treating part for disintegrating contaminated soil having a heavy metal concentration equal to or greater than a specific concentration by mixing the contaminated soil with water; a foreign substance remover, which removes a foreign substance from the contaminated soil introduced from the pre-treating part, and sorts the contaminated soil into particles having a predetermined diameter or greater, as purified soil, and contaminated soil smaller than the predetermined diameter; at least one multi-stage particle size sorter, which receives the contaminated soil smaller than the predetermined diameter, obtained through the sorting at the foreign substance remover, to subdivide the contaminated soil according to particle diameters; a purifying device receiving the contaminated soil subdivided at the multi-stage particle size sorter to wash the contaminated soil with washing process water according to particle diameters; a filtering device including a vacuum belt filter to receive purified soil obtained by washing the contaminated soil at the purifying device, separate washing process water from the purified soil, and discharge the purified soil and the washing process water; and a neutralizing tank receiving the washing process water discharged from the purifying device and the filtering device to neutralize the washing process water. [Reference numerals] (10) Belt feeder; (11) Drum washer; (12) Disintegrating device; (20) Foreign substance remover; (30) Multi-stage particle size sorter; (31) Overflow process tank; (41) Surface grinder; (42) Hydrocyclone; (43) Particle size sorter; (44) Scum precipitation & enrichment tank; (51) Aggregation & precipitation tank; (52) Concentration tank; (53) 1 to 3 step acid elution tank; (60) Filter press; (61) Neutralizing tank; (62) Pressure & float tank; (63) Fe(III) modified and activated adsorption tower; (64) Process water storage; (65) Washing water storage; (AA) Contaminated soil, contaminated soil & washing process water, and contaminated soil & compound; (BB) Washing process water; (CC) Compound (elution agent, polymer aggregate agent, and slacked lime); (DD) Foreign substance; (EE,GG) Scum; (FF) Polymer aggregate agent; (HH) Precipitation & enrichment tank (1); (II) Precipitation & enrichment tank (2); (JJ) Make-up water storage; (KK) Slacked lime storage tank; (LL) Phosphoric acid storage tank; (MM) Polymer aggregate agent; (NN) Filter press (scum); (OO) 1 to 3 step acid elution tank (pH adjustment); (PP) Lower tank of particle size sorter
    • 本发明涉及一种净化高浓度污染土壤的系统和方法,该系统和方法与分阶段连续先进的分选过程和污染负荷 - 重金属去除工艺相结合。 更具体地说,本发明涉及一种与阶段性连续先进分选方法和污染负荷 - 重差分重金属去除方法相结合的系统,用于净化高浓度污染土壤,其特征在于包括:测量部件,用于测量 污染水平衡量污染土壤的重金属浓度; 通过将污染的土壤与水混合来分解重金属浓度等于或大于特定浓度的污染土壤的预处理部分; 异物去除剂,其从预处理部分引入的污染土壤中除去异物,并将污染的土壤分解成具有预定直径或更大的颗粒,作为净化土壤和小于预定直径的污染土壤; 至少一个多级粒度分选器,其接收通过在异物去除剂上的分选获得的小于预定直径的污染土壤,以根据粒径细分污染的土壤; 一个净化装置,接收在多级粒度分选机上细分的污染土壤,根据粒径用洗涤工艺水洗涤污染土壤; 一种过滤装置,包括:真空带式过滤器,用于接收通过清洗净化装置上的污染土壤获得的净化土,从净化土壤中分离洗涤工艺水,并排出净化的土壤和洗涤工艺水; 以及中和罐,其接收从净化装置排出的洗涤水和过滤装置,以中和洗涤工序的水。 (附图标记)(10)带式给料机; (11)鼓垫圈; (12)分解装置; (20)异物清除剂; (30)多级粒度分选机; (31)溢流处理罐; (41)平面磨床; (42)水力旋流器; (43)粒度分选机; (44)浮渣沉淀池; (51)聚集沉淀池; (52)浓缩罐; (53)1〜3步酸洗罐; (60)压滤机; (61)中和罐; (62)压力浮球; (63)Fe(III)改性活化吸附塔; (64)过程储水; (65)洗涤水储存; (AA)污染土壤,污染土壤和洗涤工艺用水,以及污染土壤和化合物; (BB)洗涤工艺水; (CC)化合物(洗脱剂,聚合物聚集剂和松散石灰); (DD)异物; (EE,GG)浮渣; (FF)聚合物聚集剂; (HH)沉淀浓缩罐(1); (二)沉淀浓缩池(2); (JJ)化妆水储存; (KK)松质石灰储罐; (LL)磷酸储罐; (MM)聚合物聚合剂; (NN)压滤机(浮渣); (OO)1〜3步酸洗槽(pH调节); (PP)粒度分选机的下槽
    • 6. 发明授权
    • 중금속 오염토양의 정화방법
    • 污染土壤清洁方法
    • KR101398526B1
    • 2014-05-27
    • KR1020130063451
    • 2013-06-03
    • 지우이앤이(주)
    • 이승우전칠성
    • B09C1/04B09C1/02B09C1/00
    • B09C1/02B01D17/0205B03D1/00
    • The present invention relates to a method for purifying soil polluted with heavy metal in which a surface pulverization process and a flotation process are applied in a combined manner so that pollutants such as the heavy metal can be efficiently removed from the soil even when the soil is polluted with high concentration of heavy metal. The method for purifying polluted soil according to the present invention includes a surface pulverization process in which the polluted soil is pulverized by a pulverizing machine in a state where the polluted soil is mixed with water so that the pollutants present on a surface of the polluted soil is separated from the soil; and a flotation process in which air is injected into a mixture of the water and the polluted soil after the surface pulverization process so as to generate bubbles, and only the generated bubbles are removed so that the pollutants contained in the bubbles are removed.
    • 本发明涉及一种用于净化重金属污染土壤的方法,其中以组合的方式施用表面粉碎过程和浮选工艺,使得即使土壤为土壤,也可以有效地从土壤中除去重金属等污染物 高浓度重金属污染。 根据本发明的净化污染土壤的方法包括在被污染土壤与水混合的状态下用粉碎机将污染土壤粉碎的表面粉碎过程,使得污染土壤表面存在的污染物 与土壤分离; 以及在表面粉碎处理之后将空气注入水和污染土壤的混合物中以产生气泡并且仅产生的气泡被去除以使得包含在气泡中的污染物被去除的浮选过程。
    • 7. 发明授权
    • 단계별 연속식 고도선별과 동전기 정화공정을 결합한 오염토양 정화시스템 및 정화방법
    • 通过连续顺序进行高浓度土壤修复的系统和方法分离和电动力学移除过程
    • KR101375471B1
    • 2014-03-17
    • KR1020130124173
    • 2013-10-17
    • 현대건설주식회사주식회사 알파환경엔지니어링(주)에스지알테크지우이앤이(주)
    • 정준교강완협채희훈김강석서용식김수홍이승우
    • B09C1/08B09C1/02B09C1/00
    • B09C1/085B07B1/00B09C1/02
    • The present invention relates to a system and a method for purifying highly contaminated soil by combining stepwise sequential advanced-separation and electrokinetics. More specifically, the system comprises a measuring unit which measures the concentration of heavy metals, a pre-processor, a foreign material removal device installed to screen contaminated soil, at least one multi-stage particle sorter, a hydrocyclone, an electrokinetic device for purifying contaminated soil, a purifier, a filtering device, and a neutralization tank. [Reference numerals] (10) Belt feeder; (11) Drum washer; (12) Disintegration device; (20) Foreign material removal device; (30) Multi-stage particle sorter; (31) Overflow process tank; (41) Surface grinder; (42) Hydrocyclone; (43) Particle sorter; (44) Scum precipitation concentration tank; (51) Coagulation precipitation tank; (52) Concentration tank; (53) Acid-elution tank in first-third steps; (60) Filter press; (61) Neutralization tank; (62) Compression floating tank; (63) Fe(III)-reforming activated adsorption top; (64) Process water storage; (65) Rinsing water storage; (AA) Foreign substances; (BB) Polymer aggregates; (CC) Precipitation concentration tank(1); (DD,EE) Scum; (FF) Precipitation concentration tank(2); (GG) Particle sorter lower tank; (HH) Hydrated lime storage tank; (II) Polymer aggregates; (JJ) Supplementary water storage; (KK) Acid storage tank; (LL) Acid-elution tank in first-third steps; (MM) Filter press(scum); (NN) Contaminated soil, contaminated soil + rinsing process water, contaminated soil + compounds; (OO) Rinsing process water; (PP) Compounds(eluent, polymer aggregates, hydrated lime)
    • 本发明涉及通过组合逐步顺序的先进分离和电动机来净化高度污染的土壤的系统和方法。 更具体地,该系统包括测量重金属浓度的测量单元,预处理器,安装成筛选污染土壤的异物移除装置,至少一个多级粒子分选器,水力旋流器,用于净化的电动装置 污染土壤,净化器,过滤装置和中和罐。 (附图标记)(10)带式给料机; (11)鼓垫圈; (12)崩解装置; (20)异物清除装置; (30)多级粒子分选机; (31)溢流处理罐; (41)平面磨床; (42)水力旋流器; (43)粒子分选机; (44)浮渣浓缩池; (51)凝结沉淀池; (52)浓缩罐; (53)第三步的酸洗槽; (60)压滤机; (61)中和罐; (62)压缩浮筒; (63)Fe(III) - 改性活化吸附顶; (64)过程储水; (65)冲水储存; (AA)异物; (BB)聚合物聚集体; (CC)沉淀浓度池(1); (DD,EE)浮渣; (FF)沉淀浓度罐(2); (GG)颗粒分选机下罐; (HH)熟石灰储罐; (II)聚合物聚集体; (JJ)补水储存; (KK)酸性储罐; (LL)第三步的酸洗槽; (MM)压滤机(浮渣); (NN)污染土壤,污染土壤+冲洗工艺用水,污染土壤+化合物; (OO)冲洗加工水; (PP)化合物(洗脱剂,聚合物聚集体,熟石灰)
    • 8. 发明公开
    • 기포발생장치에서 발생된 미세기포를 이용한 오염토양의 정화방법
    • 污染土壤清洁方法
    • KR1020160039371A
    • 2016-04-11
    • KR1020140132325
    • 2014-10-01
    • 지우이앤이(주)
    • 이승우전칠성
    • B09C1/04B03D1/02B03B5/28
    • B09C1/02B03B5/28B03D1/025
    • 본발명은, 기포발생장치에의한미세기포를이용하여토양으로부터오염물질을제거하는오염토양정화방법에관한것이다. 본발명에서는오염토양과물을혼합한상태로분쇄기를통해서오염토양을분쇄하여오염토양의표면에존재하고있는오염물질을토양으로부터분리시키는표면분쇄공정과; 상기표면분쇄공정을거친상태의물과오염토양의혼합물에, 기포발생장치를이용하여, 제거하여야할 오염입자에대응되는크기의미세기포를발생시켜서오염물질을제거하게되는부유선별공정을포함하는것을특징으로하는오염토양정화방법이제공된다.
    • 本发明涉及一种补救污染土壤的方法,用于利用由气泡产生装置产生的微气泡从土壤中去除污染物。 更具体地说,提供了一种补救污染土壤的方法,其包括以下过程:表面粉碎过程,用于通过粉碎机中的粉碎机将污染土壤中的污染物从土壤中分离出来, 由污染的土壤和水构成的混合物的形式; 以及用于通过在由水和污染的土壤制成并经历表面粉碎过程的混合物中产生除去污染物的漂浮选择方法,通过使用气泡在与待除去的污染物的粒径相对应的尺寸中产生微泡 生成装置。
    • 9. 发明授权
    • 휴대용 분리막 검측장치 및 검측방법
    • 便携式检测器用于膜模块和检测方法
    • KR101280355B1
    • 2013-07-01
    • KR1020130013505
    • 2013-02-06
    • 지우이앤이(주)
    • 조진우이재원김희준이승우최윤경
    • B01D65/10B01D65/00G01N33/00G01N21/00
    • B01D65/10B01D65/00G01N21/00G01N33/00G01N2021/1746
    • PURPOSE: A portable separation film testing apparatus and a method are provided to test wherever in the water treatment tub due to the convenient carrying and be able to rapidly take action by measuring the damage degree of the separation film in the field. CONSTITUTION: A portable separation film testing apparatus comprises a case, an ultraviolet penetrating pipe, ultraviolet ray lamp, a camera, and a computer. An inlet port (120) and an outlet port (130) that let sewage/ waste water passing through a separation film of water treatment tub inflow at the one and the other side of the case. An ultraviolet ray lamp is mounted on the circumference of ultraviolet penetrating pipe by connecting the ultra-violet transmission pipe to the inlet port and the outlet port. A camera takes a picture of the radiation state of tracer included in the sewage / waste water passing through the ultraviolet penetrating pipe. A computer analyzes image information photographed with the camera. [Reference numerals] (AA) Inhale; (BB) Discharge
    • 目的:提供便携式分离膜测试装置和方法,以便通过方便的携带来测试水处理桶的任何位置,并且能够通过测量现场分离膜的损伤程度来迅速采取行动。 构成:便携式分离膜测试装置包括壳体,紫外线穿透管,紫外线灯,照相机和计算机。 允许通过水处理槽的分离膜的污水/废水在壳体的一侧和另一侧流入的入口(120)和出口(130)。 通过将紫外线传输管连接到入口和出口,将紫外线灯安装在紫外线穿透管的周围。 照相机拍摄包含在通过紫外线穿透管的污水/废水中的示踪剂的辐射状态。 计算机分析用相机拍摄的图像信息。 (附图标记)(AA)吸气; (BB)放电