公开(公告)号：KR101473244B1

公开(公告)日：2014-12-16

申请号：KR1020130125171

申请日：2013-10-21

Applicant: 한국에너지기술연구원

Inventor： 정남조 ,  김찬수 ,  좌은진 ,  황교식 ,  김동국 ,  박종수

IPC: B82B3/00 ,  B82B1/00

CPC classification number: B82B3/0095 ,  B82Y40/00

Abstract: 본 발명은 탄산염화 인회석-흑연층 복합 나노와이어 및 그 합성방법에 관한 것으로서, 상세하게는 본 발명은 매우 간단한 공정을 통해 탄산염화 인회석 표면에 결정성 흑연층을 형성시킴으로써 바이오 적합성뿐만 아니라 기계적 특성이 매우 향상된 복합 나노구조체를 대량으로 합성할 수 있는 방법에 대한 것이다. 특히 본 발명은 탄산칼슘 그 자체뿐만 아니라 달걀껍질과 같이 탄산칼슘이 포함된 다양한 물질들의 활용가능성을 확인하여 고부가가치 탄산염화 인회석-흑연층 복합 나노와이어를 대량으로 생산할 수 있는 기술을 제공한다.

Abstract translation: 本发明涉及碳酸氯化物磷灰石 - 石墨层复合纳米线及其合成方法，更具体地说，涉及一种通过在表面上形成结晶石墨层来显着提高生物适应性和机械性能的本体合成复合纳米结构体的方法 的碳酸氯化物磷灰石通过非常简单的过程。 特别地，本发明证实了碳酸钙本身和含有蛋壳等碳酸钙的各种材料的适用性，从而提供可以大量生产较高附加值的碳酸盐氯化物磷灰石 - 石墨层复合纳米线的技术。

公开(公告)号：KR1020140116723A

公开(公告)日：2014-10-06

申请号：KR1020130031648

申请日：2013-03-25

Applicant: 한국에너지기술연구원

Inventor： 박종수 ,  박철호 ,  김태환 ,  김동국 ,  김찬수 ,  양현경 ,  양승철 ,  곽성조 ,  김한기 ,  신평호 ,  좌은진

IPC: B01D63/08 ,  B01D63/00 ,  H01M2/14

CPC classification number: B01D63/082 ,  B01D2313/08 ,  H01M2/14 ,  Y02E60/50

Abstract: The present invention relates to a membrane structure integrated with a deflector, which can improve permeability with a thin thickness by stacking multi-layer membranes. According to the present invention, a deflector having various structures from various materials can be installed according to the purpose of the membrane. The membrane integrated with a deflector is characterized by patterns on the membrane surface for a fluid flow length and turbulence increase. Furthermore, the defector can be projected from either one side or both sides of the membrane, and can have a symmetrical or an asymmetrical structure. Also, the membrane integrated with a defector is characterized by the various catalyst used in accordance to the various purposes.

Abstract translation: 本发明涉及一种与偏转器一体化的膜结构，其可以通过堆叠多层膜来改善厚度的渗透性。 根据本发明，可以根据膜的目的安装具有各种材料的各种结构的偏转器。 与偏转器集成的膜的特征在于膜表面上的图案用于流体流动长度和湍流增加。 此外，剔除器可以从膜的一侧或两侧突出，并且可以具有对称或非对称结构。 而且，与剔除器一体化的膜的特征在于根据各种目的使用的各种催化剂。

公开(公告)号：KR101431636B1

公开(公告)日：2014-08-20

申请号：KR1020130105993

申请日：2013-09-04

Applicant: 한국에너지기술연구원

Inventor： 김태환 ,  박종수 ,  김동국 ,  김한기 ,  양현경

IPC: F03G7/00 ,  H02N11/00

CPC classification number: Y02E10/36

Abstract: The present invention relates to a concentration difference power generation apparatus with high efficiency, which can increase power generation efficiency by arranging an ion exchange membrane which increases charge transport. The present invention includes a flow oxidation electrode through which an electrode cleaning solution moves; a flow reduction electrode spaced apart from the flow oxidation electrode to face the flow oxidation electrode, and through which the electrode cleaning solution moves; and at least one pair of concentration difference paths disposed between the flow oxidation electrode and the flow reduction electrode, and having a fresh water path disposed in a direction close to the flow oxidation electrode, through which fresh water flows, and a salt water path separated from the fresh water path by an anion exchange membrane, through which salt water flows, with the pair of concentration difference flows being divided by the anion exchange membranes disposed at both ends. The electrode cleaning solution of the flow oxidation electrode and the flow reduction electrode circulates in a closed loop, and cations of the electrode cleaning solution are equal to cations of the salt water. Permeability of the water of the anion exchange membrane which is contact with the flow oxidation electrode and the flow reduction electrode is lower than that of the water of the other ion exchange members.

Abstract translation: 本发明涉及一种高效率的浓度差发电装置，其能够通过设置增加电荷输送的离子交换膜来提高发电效率。 本发明包括流动氧化电极，电极清洗液通过该氧化电极移动; 与所述流动氧化电极间隔开的与所述流动氧化电极相对的流动还原电极，所述电极清洗液通过所述流动还原电极移动; 以及至少一对浓度差路径，设置在流动氧化电极和流动还原电极之间，并且具有沿着靠近流动氧化电极的方向设置的淡水路径，淡水流过该淡水路径，并且盐水路径被分离 通过阴离子交换膜从淡水路径通过盐水流过，一对浓度差流由设置在两端的阴离子交换膜除以。 流动氧化电极和流动还原电极的电极清洗液在闭环循环，电极清洗液的阳离子等于盐水的阳离子。 与流动氧化电极和流动还原电极接触的阴离子交换膜的水的渗透性低于其他离子交换构件的水的渗透性。

公开(公告)号：KR101282794B1

公开(公告)日：2013-07-05

申请号：KR1020120002171

申请日：2012-01-06

Applicant: 한국에너지기술연구원

Inventor： 박종수 ,  김동국 ,  황경란 ,  여정구 ,  추고연 ,  김태환 ,  이춘부 ,  전성일 ,  박홍란 ,  정헌도

IPC: C02F1/469 ,  C02F1/461 ,  C25B9/00 ,  B01D61/42

CPC classification number: C02F1/4691

Abstract: PURPOSE: A laminated-type fluidized-bed battery-powered deionizer is provided to contribute to bulk desalinization, wastewater treatment, energy storage and commercialization of an energy generator as the laminated-type fluidized-bed battery-powered deionizer provides a module that is more compact than an independent unit-cell parallel connection composition for FCDi capacity expansion. CONSTITUTION: A laminated-type fluidized-bed battery-powered deionizer comprises a unit cell (101) on which one or more is laminated; an upper board (110) which is arranged at the top of the unit cell laminated; and a lower board (170) which is arranged at the bottom of the unit cell laminated. The unit cell contains an active anode fluid path, a active cathode fluid path and an electrolyte fluid path. A couple of anode tubes (111,176) connected respectively to the left end and the right end of the active cathode path are installed in one or two among the upper board and the lower board. A couple of cathode tubes (114,173) respectively connected to the left end and the right end of an anode active substance liquid path are installed one or more directions among the upper plate of the lower plate and a couple of electrolyte pipe (115,172) respectively connected to the left end and the right end of an electrolyte active material liquid path are installed on one direction or both directions among the upper plate and the lower plate. An anode terminal (128) is connected to the anode active material liquid path and a cathode terminal (168) is connected to the cathode active material liquid path.

Abstract translation: 目的：提供层压型流化床电池供电的去离子器，用于能量发生器的散装脱盐，废水处理，能量储存和商业化，因为层压型流化床电池供电的去离子器提供更多的模块 比独立的单元并联组合紧凑，用于FCDi容量扩展。 构成：层压型流化床电池供电去离子器包括其上层压有一个或多个的单元电池（101）; 布置在单元电池顶部的上板（110）层叠; 以及布置在单元电池底部的下板（170）。 单元电池包含活性阳极流体路径，活性阴极流体路径和电解质流体路径。 分别连接到活性阴极通道的左端和右端的一对阳极管（111,176）安装在上板和下板中的一个或两个中。 分别连接到阳极活性物质液体通道的左端和右端的一对阴极管（114,173）在下板的上板之间安装一个或多个方向，并且分别连接一对电解液管（115,172） 在上板和下板之间的一个方向或两个方向上安装电解液活性物质液体通道的左端和右端。 阳极端子（128）连接到负极活性物质液体路径，阴极端子（168）连接到阴极活性物质液体路径。

公开(公告)号：KR101252569B1

公开(公告)日：2013-04-09

申请号：KR1020110051991

申请日：2011-05-31

Applicant: 한국에너지기술연구원

Inventor： 박종수 ,  이신근 ,  황경란 ,  김동국 ,  김태환 ,  정순관 ,  이춘부 ,  이성욱

IPC: B01D63/08 ,  C01B3/50 ,  C01B3/58

Abstract: 수소 정제 분리막 모듈이 개시되어 있다. 이러한 수소 성제 분리막 모듈은 상부플랜지와 하부플랜지를 포함한다. 상부플랜지와 하부플랜지 사이의 내부 공간에는 수소분리막과 수소분리막에 접촉하여 외부 가스의 유입 및 수소 가스의 유출을 방지하기 위한 실(seal) 및/또는 상부플랜지와 하부플랜지 사이에 외부 가스의 유입 및 수소 가스의 유출을 방지하기 위한 실(seal)이 제공된다. 상부플랜지와 하부플랜지 중의 어느 하나와 수소분리막에 의해 규정되는 수소분리공간에서의 상호 공간 거리가 0.01 내지 20 mm 되게 수소 정제 분리막 모듈이 구성된다. 또한, 수소분리막과 실의 접촉면에는 확산억제층이 제공된다. 확산억제층은 분리막과 실이 맞닿는 분리막 표면에 세라믹 단독으로 또는 세라믹과 금속이 동시에 또는 임의적 순서로 코팅되어 있는 부분을 포함한다. 다르게는, 확산억제층은 바람직하게는 알루미늄 박막(호일)의 외표면을 산화시킴으로써 얻은 표면 산화된 알루미늄 박막(호일)층일 수 있다. 다르게는, 확산억제층는 실링부재에 형성하되 실링부제 전체 혹은 분리막과 맞닿는 부분에 국부적으로 형성되는 것을 포함한다.

公开(公告)号：KR1020120133353A

公开(公告)日：2012-12-10

申请号：KR1020110051991

申请日：2011-05-31

Applicant: 한국에너지기술연구원

Inventor： 박종수 ,  이신근 ,  황경란 ,  김동국 ,  김태환 ,  정순관 ,  이춘부 ,  이성욱

IPC: B01D63/08 ,  C01B3/50 ,  C01B3/58

CPC classification number: C01B3/505 ,  B01D69/10 ,  B01D71/022

Abstract: PURPOSE: A hydrogen purification separating membrane for controlling the gradient of concentration is provided to maximize the efficiency of hydrogen separation by adjusting the spatial distance of a hydrogen separating space. CONSTITUTION: A hydrogen purification separating membrane for controlling the gradient of concentration includes an upper flange(30) and a lower flange(40). One or more seals(50, 55) are arranged at an inner space between the upper flange and the lower flange. The seals prevent the introduction of external gas and the exhaustion of hydrogen gas by being in contact with a hydrogen separating membrane. A hydrogen separating space is defined by either the upper flange or the lower flange and the hydrogen separating membrane. The spatial distance of the hydrogen separating membrane and the hydrogen separating space is in a range between 0.01 and 20mm.

Abstract translation: 目的：提供用于控制浓度梯度的氢气净化分离膜，以通过调节氢分离空间的空间距离来最大化氢分离效率。 构成：用于控制浓度梯度的氢气净化分离膜包括上凸缘（30）和下凸缘（40）。 一个或多个密封件（50,55）布置在上凸缘和下凸缘之间的内部空间处。 密封件防止通过与氢分离膜接触而引入外部气体和排出氢气。 氢分离空间由上法兰或下法兰和氢分离膜限定。 氢分离膜和氢分离空间的空间距离在0.01至20mm的范围内。

公开(公告)号：KR1020120115189A

公开(公告)日：2012-10-17

申请号：KR1020120097335

申请日：2012-09-03

Applicant: 한국에너지기술연구원

Inventor： 김동국 ,  김태환 ,  조철희 ,  박종수 ,  추고연 ,  여정구

IPC: C02F1/469

CPC classification number: C02F1/469 ,  C02F2201/461

Abstract: PURPOSE: A water treatment apparatus using a flow electrode device is provided to conserve costs needed for manufacturing and operational processes and to continuously micro-electrode active material slurry mixed with electrolyte. CONSTITUTION: A water treatment apparatus includes an energy storage device. The energy storage device includes a flow electrode device(1), a supplying device, a power supplying device, a switch, and a storage tank. The flow electrode device includes a flow anode(10), a flow cathode(20), and electrolyte(30). The flow anode includes anodic active materials flowing through an anodic flow path. The flow cathode includes cathodic active materials flowing through a cathodic flow path. The electrolyte flows through an electrolyte path(34) between the anodic flow path and the cathodic flow path. Ions flow between the electrolyte and the flow cathode and between the electrolyte and the flow anode. The supplying device supplies the active materials and the electrolyte. The switch adjusts electric potential difference generated from the power supplying device. The storage tank stores the active materials and the electrolyte.

Abstract translation: 目的：提供一种使用流动电极装置的水处理装置，以节省制造和操作过程所需的成本以及与电解质混合的连续微电极活性材料浆料。 构成：水处理装置包括储能装置。 能量存储装置包括流动电极装置（1），供给装置，供电装置，开关和储存箱。 流动电极装置包括流动阳极（10），流动阴极（20）和电解质（30）。 流动阳极包括流过阳极流动路径的阳极活性材料。 流动阴极包括流过阴极流动路径的阴极活性物质。 电解质流过阳极流路和阴极流路之间的电解质路径（34）。 离子在电解质和流动阴极之间以及电解质和流动阳极之间流动。 供给装置供应活性物质和电解质。 该开关调节从供电装置产生的电位差。 储存罐储存活性物质和电解质。

公开(公告)号：KR101185490B1

公开(公告)日：2012-10-02

申请号：KR1020090135865

申请日：2009-12-31

Applicant: 한국에너지기술연구원

Inventor： 조철희 ,  김도경 ,  여정구 ,  안영수 ,  김동국 ,  김홍수

IPC: C08L101/00 ,  C08K3/20 ,  D01D5/24 ,  D01D5/06

CPC classification number: B29C47/0026 ,  B01D69/08 ,  B01D69/087 ,  B01D71/024 ,  B22F3/23 ,  B82Y30/00 ,  C04B35/62236 ,  C04B35/62272 ,  C04B35/62281 ,  C04B35/62295 ,  C04B35/634 ,  C04B2235/404 ,  C04B2235/421 ,  C04B2235/5284 ,  C09D5/00 ,  C22C1/058 ,  C22C29/00 ,  C22C29/02 ,  C22C29/12 ,  C22C29/16 ,  C22C47/14 ,  D01D10/02 ,  D01F9/08 ,  Y10T428/1369

Abstract: 저비용으로, 난소결성 비산화물, 산화물-비산화물 등과 같은 무기질 중공사를 제조할 수 있는 방법에 대하여 개시한다.
본 발명에 따른 무기질 중공사 제조 방법은 (a) 고온 자전 반응물(Self-propagating High Temperature Reactant), 고분자 및 분산제를 포함하는 조성물을 마련하는 단계; (b) 상기 조성물을 방사 노즐(spinneret)을 이용하여 습식 방사하는 단계; (c) 상기 (b)단계의 결과물을 세척 및 건조하여, 고분자-고온자전반응물 중공사를 형성하는 단계; 및 (d) 상기 고분자-고온자전반응물 중공사를 열처리하여, 고분자 성분을 제거하고 상기 고온자전반응물을 고온자전반응(Self-propagating High Temperature Reaction)시켜 무기질 중공사를 형성하는 단계;를 포함하는 것을 특징으로 한다.
이때, 상기 조성물은 고온자전반응물 45~60중량%, 고분자 6~17중량%, 분산제 0.1~4중량% 및 잔량의 유기 용매를 포함하는 것을 특징으로 한다.

Abstract translation: 本文公开了以低成本制造无机中空丝的方法，例如金属陶瓷，氧化物非氧化物复合材料，不易烧结的非氧化物等。 该方法包括制备包含自蔓延高温反应物，聚合物和分散剂的组合物，通过喷丝头将组合物湿纺以形成湿纺丝，洗涤和干燥湿纺丝以形成聚合物自传播 高温反应物中空纱线，并热处理聚合物自蔓延高温反应物中空纱线，以从聚合物自传播的高温反应物中空纱线中除去聚合物组分，同时诱导自传播高自由度高温反应 温度反应物形成无机中空纱线。 该组合物包含45〜60重量％的自蔓延高温反应物，6〜17重量％的聚合物，0.1〜4重量％的分散剂，余量为有机溶剂。

公开(公告)号：KR1020120078841A

公开(公告)日：2012-07-11

申请号：KR1020110000115

申请日：2011-01-03

Applicant: 한국에너지기술연구원

Inventor： 박종수 ,  이신근 ,  황경란 ,  김동국 ,  김태환 ,  정순관 ,  이춘부 ,  이성욱

IPC: B01D61/00 ,  B01D63/00 ,  B01D69/10 ,  C01B3/50

CPC classification number: C01B3/505 ,  B01D63/00 ,  B01D69/10 ,  B01D71/02

Abstract: PURPOSE: A hydrogen refining separating membrane module is provided to block the risk of internal hydrogen leakage and separating membrane damage due to the introduction of external oxygen in case of being operated at high temperatures by using inner sealant and outer sealant. CONSTITUTION: A hydrogen refining separating membrane module(1) includes a hydrogen separating membrane(10), a porous support(20), a lower flange(40), an upper flange(30), inner sealant(50), and outer sealant(55). The lower flange includes a first loading part(41), a supporting protrusion part, at least one hydrogen penetrating holes, a second loading part(42). The hydrogen separating membrane and the porous support are loaded on the first loading part. The supporting protrusion part is arranged at the first loading part and forms a hydrogen discharging path to support the porous support. The hydrogen penetrating hole is penetrated at the first loading part. The second loading part is formed at the outer side of the first loading part. The upper flange includes at least one penetration holes and secures air tightness in case of being fastened with the lower flange. The inner sealant prevents the leakage of gas by being arranged at the first loading part. The outer sealant prevents the leakage of gas by being arranged at the second loading part.

Abstract translation: 目的：提供氢气精炼分离膜组件，以防止在内部密封剂和外部密封剂在高温下运行时由于引入外部氧而导致内部氢泄漏和分离膜损坏的风险。 构成：氢精制分离膜组件（1）包括氢分离膜（10），多孔载体（20），下凸缘（40），上凸缘（30），内密封剂（50）和外密封剂 （55）。 下凸缘包括第一装载部分（41），支撑突出部分，至少一个氢气穿透孔，第二装载部分（42）。 氢分离膜和多孔载体被装载在第一装载部分上。 支撑突起部分布置在第一装载部分处并形成氢排放路径以支撑多孔支撑。 氢穿透孔穿过第一装载部分。 第二装载部形成在第一装载部的外侧。 上凸缘包括至少一个穿透孔，并在与下凸缘紧固的情况下确保气密性。 内密封件​​通过布置在第一装载部分来防止气体的泄漏。 外部密封剂通过布置在第二装载部分来防止气体的泄漏。

公开(公告)号：KR1020120032761A

公开(公告)日：2012-04-06

申请号：KR1020100094269

申请日：2010-09-29

Applicant: 한국에너지기술연구원

Inventor： 송광섭 ,  정남조 ,  유윤종 ,  조철희 ,  김동국 ,  여정구 ,  김시경

IPC: D06B23/22 ,  D06B15/09 ,  D06B1/02

CPC classification number: D06B19/00 ,  B41J3/4078 ,  B41J11/0015 ,  B41J11/002 ,  D06C7/00 ,  F26B3/305 ,  F26B13/10 ,  F26B23/024

Abstract: PURPOSE: A continuous drying/steaming device is provided to enhance energy consumption and total process efficiency. CONSTITUTION: A continuous drying/steaming device and a printing system using the same comprises a burner body, a gas supply pipe, a spray nozzle, a catalyst layer, an electric heater, and a thermocopule. The burner body has an inner space. The gas supply pipe supplies gas to the inside of the burner body. The spray nozzle sprays gas to the inside of the burner body. The catalyst layer has a low temperature combustion catalyst and a support element. The catalyst layer is separately placed from a fabric in a predetermined interval for drying and steaming/heating the fabric.

Abstract translation: 目的：提供连续干燥/蒸汽装置，以提高能源消耗和总工艺效率。 构成：连续的干燥/蒸汽装置和使用其的打印系统包括燃烧器本体，气体供给管，喷嘴，催化剂层，电加热器和热电极。 燃烧器本体具有内部空间。 气体供给管向燃烧器本体的内部供给气体。 喷嘴将气体喷射到燃烧器本体的内部。 催化剂层具有低温燃烧催化剂和支撑元件。 催化剂层以预定间隔从织物分开放置，用于干燥和蒸汽/加热织物。