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    • 4. 发明公开
    • 축전식 탈염 공정을 질산염 농축공정으로 이용하는 하수고도처리시스템 및 그 방법
    • 一种利用电解浓缩方法进行高效废水处理的系统,作为硝酸盐浓缩方法和先进的废水处理方法
    • KR1020160009241A
    • 2016-01-26
    • KR1020140089459
    • 2014-07-16
    • 주식회사 한화건설한국수자원공사주식회사 태영건설
    • 박승국신경숙차재환임윤대김지연김홍석김연권최한나장훈신정훈
    • C02F1/469C02F3/30B01D61/00
    • C02F1/469B01D61/00C02F3/30
    • 본발명은영양염류를제거하기위한하폐수고도처리기술에관한것으로, 더욱구체적으로는무산소조-막분리호기조로구성된하수고도처리공정후단에축전식탈염조(CDI장치)를설치해질산화된질소를전기적으로흡착하여처리수를생산하고, 농축된질산성질소를무산소조로반송시켜처리하도록구성된하수고도처리시스템및 그방법에관한것이다. 본발명은무산소조(100), 막분리호기조(200), 축전식탈염조(300)를포함하는하수고도처리시스템을제공한다. 또한본 발명은상기무산소조(100)는담체를포함하여구성되어있고, 막분리호기조(200)는호기조(210), 막분리조(220)를포함하여구성되어있는것에특징이있는하수고도처리시스템을제공한다. 또한본 발명은상기축전식탈염조(300)는반송장치를구비하여무산소조(100)에 CDI 농축수를반송하는것에특징이있는하수고도처리시스템을제공한다. 또한본 발명은유입수가무산소조(100)로유입되어무산소조로처리되는공정(제1공정), 상기무산소조를거친처리수가막분리호기조(200)로유입되어처리되는공정(제2공정), 상기막분리호기조(200)를거친처리수가축전식탈염조(300)로유입되어축전식탈염공정(제3공정)을포함하는하수고도처리방법을제공한다. 또한본 발명은상기무산소조로처리되는공정은담체가포함되는무산소조로처리되는공정이고, 상기막분리호기조(200)의처리공정은호기조공정및 막분리조공정이포함되고, 상기축전식탈염공정(제3공정)은무산소조(100)에 CDI 농축수를반송하는공정이포함된것을특징으로하는하수고도처리방법을제공한다.
    • 本发明涉及一种用于去除营养盐的先进废水处理技术。 更具体地,本发明提供了一种先进的废水处理系统,其包括厌氧罐(100),膜分离好氧罐(200)和电容去离子罐(300)。 此外,本发明的厌氧罐(100)包括载体; 膜分离好氧罐(200)包括需氧罐(210)和膜分离罐(220); 并且电容去离子罐(300)具有通过电容去离子(CDI)将冷凝水转移到厌氧罐(100)中的转移装置。
    • 7. 发明公开
    • 저에너지형 하폐수처리장치와 그 운영 방법
    • 低能耗型废水处理设备及其操作方法
    • KR1020140093441A
    • 2014-07-28
    • KR1020130005796
    • 2013-01-18
    • 한국수자원공사주식회사 태영건설주식회사 한화건설
    • 김병군서인석김연권김홍석김지연유재철최한나장훈신정훈박승국신경숙차재환
    • C02F3/28H01M8/16C02F1/469
    • Y02E60/527Y02P70/56
    • The present invention relates to a low energy consumption type wastewater treatment apparatus including a microbial fuel cell for generating electricity using organic matters in wastewater in a wastewater treatment apparatus, and having a separation membrane bioreactor and a capacitive deionization device connected sequentially behind the microbial fuel cell for the advanced treatment of the wastewater. The low energy consumption type wastewater treatment apparatus comprises: a first sedimentation tank for receiving wastewater and solid-liquid-separating the wastewater into slurry, which is solid in the wastewater, and first treated water; a microbial fuel cell for receiving the first treated water discharged from the first sedimentation tank and generating electricity by decomposing organic matters in the first treated water without aeration; a separation membrane bioreactor for receiving second treated water discharged from the microbial fuel cell to remove organic matters remaining in the second treated water and remove floating solids stably without a separate sedimentation tank and conducting nitrification and denitrification; and a capacitive deionization device for receiving third treated water discharged from the separation membrane bioreactor and removing salinity in the third treated water.
    • 本发明涉及一种低耗能型废水处理装置,其包括在污水处理装置中使用废水中的有机物质发电的微生物燃料电池,并且具有在微生物燃料电池之后顺序连接的分离膜生物反应器和电容去离子装置 用于废水的先进处理。 低耗能型废水处理装置包括:第一沉淀池,用于接收废水,并将废水固液分离成废水中的固体,以及第一处理水; 微生物燃料电池,用于接收从第一沉淀池排出的第一处理水并通过在第一处理水中分解有机物质而不通风; 分离膜生物反应器,用于接收从微生物燃料电池排出的第二处理水,以除去残留在第二处理水中的有机物质,并且不用分离的沉淀池稳定地去除漂浮的固体并进行硝化和反硝化; 以及电容去离子装置,用于接收从分离膜生物反应器排出的第三处理水并除去第三处理水中的盐度。
    • 9. 发明授权
    • 다중 격막형 미생물연료전지
    • 微型燃料电池与多层锅
    • KR101370476B1
    • 2014-03-10
    • KR1020120124713
    • 2012-11-06
    • 한국수자원공사주식회사 태영건설주식회사 한화건설부산대학교 산학협력단
    • 김병군서인석김홍석김연권김지연유재철최한나장훈신정훈박승국신경숙이태우이태호송영채민부기
    • H01M8/16H01M8/02
    • Y02E60/527
    • The present invention relates to a multiple diaphragm type microbial fuel cell which maximizes the amount of electric power generation by minimizing a dead space inside of anode part through only the structure improvement by forming multiple diaphragms inside the anode part in order to mutually face each other. The present invention comprises: a main body which has hollow inside; an anode part which performs an organic matter decomposition with microorganism by receiving raw water in the inside of the main body; an anode which moves an electron generated in the organic matter decomposition process to a reduction electrode by being installed to be closed to the outer side of the anode part; a separation membrane which electrically insulates the anode and the reduction electrode by being installed in the outer side of the anode; a reduction electrode which maintains the flow of the electron by reacting the electron transferred from the anode with the outside air by being installed in the outer side of the separation membrane. The anode part has a feature of having a diaphragm which is extended from the side part of the inside of the main body in order to enlarge the surface area in which the electron generated in the organic matter decomposition process is transferred.
    • 本发明涉及一种多隔膜型微生物燃料电池,其通过在阳极部内部形成多个隔膜以使彼此相互面对的结构改善,使阳极部内的死区最小化来使发电量最大化。 本发明包括:具有中空的主体; 阳极部,其通过在主体内部接收原水来进行微生物的有机物分解; 阳极,其将通过安装成在阳极部的外侧闭合而将有机物分解过程中产生的电子移动到还原电极; 分离膜,其通过安装在阳极的外侧而使阳极和还原电极电绝缘; 还原电极,其通过安装在分离膜的外侧,使从阳极转移的电子与外部空气反应来维持电子流动。 阳极部的特征在于,具有从主体的内侧的侧部延伸的膜片,以扩大在有机物分解处理中产生的电子传递的表面积。
    • 10. 发明授权
    • 축전식 탈염 공정을 질산염 농축공정으로 이용하는 하수고도처리시스템 및 그 방법
    • 污水提升处理系统及其使用存储型脱盐工艺作为硝酸盐浓缩工艺的方法
    • KR101734112B1
    • 2017-05-15
    • KR1020140089459
    • 2014-07-16
    • 주식회사 한화건설한국수자원공사주식회사 태영건설
    • 박승국신경숙차재환임윤대김지연김홍석김연권최한나장훈신정훈
    • C02F1/469C02F3/30B01D61/00
    • 본발명은영양염류를제거하기위한하폐수고도처리기술에관한것으로, 더욱구체적으로는무산소조-막분리호기조로구성된하수고도처리공정후단에축전식탈염조(CDI장치)를설치해질산화된질소를전기적으로흡착하여처리수를생산하고, 농축된질산성질소를무산소조로반송시켜처리하도록구성된하수고도처리시스템및 그방법에관한것이다. 본발명은무산소조(100), 막분리호기조(200), 축전식탈염조(300)를포함하는하수고도처리시스템을제공한다. 또한본 발명은상기무산소조(100)는담체를포함하여구성되어있고, 막분리호기조(200)는호기조(210), 막분리조(220)를포함하여구성되어있는것에특징이있는하수고도처리시스템을제공한다. 또한본 발명은상기축전식탈염조(300)는반송장치를구비하여무산소조(100)에 CDI 농축수를반송하는것에특징이있는하수고도처리시스템을제공한다. 또한본 발명은유입수가무산소조(100)로유입되어무산소조로처리되는공정(제1공정), 상기무산소조를거친처리수가막분리호기조(200)로유입되어처리되는공정(제2공정), 상기막분리호기조(200)를거친처리수가축전식탈염조(300)로유입되어축전식탈염공정(제3공정)을포함하는하수고도처리방법을제공한다. 또한본 발명은상기무산소조로처리되는공정은담체가포함되는무산소조로처리되는공정이고, 상기막분리호기조(200)의처리공정은호기조공정및 막분리조공정이포함되고, 상기축전식탈염공정(제3공정)은무산소조(100)에 CDI 농축수를반송하는공정이포함된것을특징으로하는하수고도처리방법을제공한다.
    • 本发明涉及一种废水高级处理技术以去除营养物,并且更具体地euroneun缺氧 - 膜分离需氧槽在由电吸附氮的硝化后端污水处理过程中安装电容脱盐原油(CDI单元) 从而产生处理过的水并将浓缩的硝酸盐氮返回到缺氧池进行处理。 本发明提供了一种污水处理系统,其包括一个缺氧池100和膜分离好氧池200,并脱盐原油300的电容。 在另一个方面中,本发明的无氧槽100被配置为包括neundam体,和膜分离好氧池200是好氧池210,膜分离的污水处理系统,其特征在于,是包括将箱(220) Lt。 在另一个方面中,本发明的电容性脱盐罐300提供了一种污水处理系统,该系统的特征在于,在承载多个CDI的浓缩在缺氧罐100设置有转印装置。 在另一个方面中,本发明被引入到入口数缺氧池100,该过程与缺氧池(第一步骤),步骤(第二步骤),以待处理可以通过缺氧罐的手柄通过被引入到膜分离好氧池200进行处理,该膜 分开的流好氧池200向粗处理水容性脱盐罐300提供了一种污水处理方法,包括电容脱盐工序(第三工序)。 在另一个方面,在缺氧池被处理的本发明处理过程并且该过程是一种方法,其中治疗与含有载体,含有该好氧池处理和膜分离槽的过程中,电容脱盐工序中的膜分离好氧池200(缺氧池 第三步)包括将CDI浓缩水输送到缺氧罐100的步骤。