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    • 2. 发明授权
    • 3챔버를 갖는 복합 산화 환원제 생성용 전해 셀
    • 用于产生复合氧化和还原材料的电解槽
    • KR101182112B1
    • 2012-09-12
    • KR1020100017566
    • 2010-02-26
    • (주) 퓨리켐
    • 김한주홍경미유선경박수길김희정
    • C25B9/10C25B1/13C25B1/26C02F1/467
    • 본 발명은 물을 전기분해하여 살균과 탈취기능을 갖는 전해수를 수중에서 직접 생성하는 3챔버를 갖는 복합 산화 환원제 생성용 전해 셀에 관한 것으로, 더욱 상세하게는 중공형의 케이스와, 이온교환분리막이 상호 이격되어 대칭 구조를 이룸으로써 상기 케이스 내부를 양극실, 중간실, 음극실 3개의 챔버로 분리하여 형성되는 3챔버와, 상기 양극실 내의 양극 전극과, 상기 음극실 내의 음극 전극과, 상기 양극실로 수도수 또는 증류수를 유입시키기 위한 제1유입구, 상기 양극실에서 생성된 오존수 또는 복합산화수를 유출시키기 위한 제1유출구와, 상기 중간실로 전해질을 유입시키기 위한 제2유입구, 상기 전해질을 유출시키기 위한 제2유출구와, 상기 음극실로 수도수 또는 증류수를 유입시키기 위한 제3유입구와, 상기 음극실에서 생성된 수소수를 유출시키기 위한 제3유출구로 구성된 3챔버를 갖는 복합 산화 환원제 생성용 전해 셀에 관한 것이다.
    • 3. 发明公开
    • AC표면에 LTO를 형성시킨 LTO/AC 복합물질 제조방법과, 이에 의해 제조된 LTO/AC 복합물질을 이용한 전기화학 커패시터 제조방법
    • 活性炭上的钛酸锂的制备和使用钛酸锂/ AC复合材料的电化学电容
    • KR1020110046062A
    • 2011-05-04
    • KR1020090102887
    • 2009-10-28
    • (주) 퓨리켐
    • 박수길김한주육영재김홍일양정진
    • H01G11/86H01G11/32
    • H01G11/32H01G11/46Y02E60/13
    • PURPOSE: A preparation of lithium titanate on activated carbon and using lithium titanate/ac composite material for electrochemical capacitor are provided to improve the energy density of a cathode material by forming a titanium oxide on the surface of an activated carbon. CONSTITUTION: In a preparation of lithium titanate on activated carbon and using lithium titanate/ac composite material for electrochemical capacitor, lithium is dissolved in solvent to 1:80~120 mass rate. A first solution is manufactured. An TTIP is dissolved in solvent to 1:40~60 mass rate. A second solution is manufactured. The first solution and the second solution are mixed. A third solution is manufactured. An AC is dissolved in solvent to 1:80~120 mass rate. A fourth solution is manufactured. The third solution and fourth solution are stirred to manufacture a fifth solution. An ultrasonic wave is added to the fifth solution. The solvent is removed. A material passing a drying procedure is plasticized for 4~6 hours.
    • 目的:提供钛酸锂在活性炭上的制备及使用钛酸锂/交联复合材料用于电化学电容器,以通过在活性炭表面形成二氧化钛来提高阴极材料的能量密度。 构成:在活性炭上制备钛酸锂并使用钛酸锂/交流复合材料进行电化学电容器时,锂溶解于1:80〜120质量比。 制造第一个解决方案。 将TTIP溶解至1:40〜60质量比。 制造第二个解决方案。 第一溶液和第二溶液混合。 制造第三个解决方案。 AC溶剂溶解至1:80〜120质量比。 制造第四种解决方案。 搅拌第三溶液和第四溶液以制备第五溶液。 将超声波添加到第五溶液。 除去溶剂。 通过干燥步骤的材料塑化4〜6小时。
    • 4. 发明授权
    • CDI 전극용 도전성 접착제 및 이를 이용한 전극제조방법
    • 用于CDI电极的电导率粘合剂和使用该电极的电极的制备
    • KR100939793B1
    • 2010-01-29
    • KR1020090069272
    • 2009-07-29
    • (주) 퓨리켐
    • 김한주김희정육영재이보람박수길
    • C09J9/02C09J103/02C09J11/04C08L3/02
    • C09J11/08C08K3/04C08L5/04C09J9/02C09J11/04C25B11/04
    • PURPOSE: An electro-conductive adhesive is provided to increase adhesion between the surfaces by reducing the lifting and air gap of the surface of a carbon sheet as a current collector and porous activated carbon as an electrode material. CONSTITUTION: A method for manufacturing an electrode using conductive adhesives for CDI electrode comprises the steps of: adding 2~10 wt% binder of alginate or propylene glycol alginate, 2~10 wt% cross-linking agent of organic acid or their derivative, and 2~15 wt% conductive material of carbon black to 70~94 wt% dispersing medium of deionized water to manufacture conductive adhesives; applying the conductive adhesive on the surface of a carbon sheet, and heating and drying the coating material to prepare a conductive adhesive layer with a dry thickness of 0.2~50 micron; applying activated charcoal slurry as an electrode material; and pressing the dried material to improve the homogeneity of the electrode.
    • 目的:提供一种导电粘合剂,通过减少作为集电器的碳片表面的提升和气隙以及作为电极材料的多孔活性炭来增加表面之间的粘合。 构成:使用用于CDI电极的导电粘合剂制造电极的方法包括以下步骤:加入2〜10重量%的藻酸盐或丙二醇藻酸盐的粘合剂,2〜10重量%的有机酸或其衍生物的交联剂,以及 2〜15重量%的炭黑导电材料,以70〜94重量%的去离子水分散介质制造导电胶; 将导电性粘合剂涂布在碳片的表面上,加热干燥涂料,制成干燥厚度为0.2〜50微米的导电性粘合剂层; 应用活性炭浆作为电极材料; 并压制干燥的材料以改善电极的均匀性。
    • 5. 发明公开
    • 전기이중층 커패시터용 활성탄 개질방법
    • 电动双层电容器的活性炭改性方法
    • KR1020140067187A
    • 2014-06-05
    • KR1020120121765
    • 2012-10-31
    • (주) 퓨리켐
    • 박수길김한주양정진육영재김홍일
    • C01B31/12H01G11/22
    • Y02E60/13H01G11/34C01B32/318
    • The present invention relates to a method for reforming activated carbon for an electric double layer capacitor, and more specifically, to a method for reforming activated carbon for an electric double layer capacitor which comprises a step of pre-treating activated carbon by putting activated carbon into hydrogen peroxide (H2O2) solution and stirring for a predetermined time; a step of removing the remaining hydrogen peroxide in the activated carbon by repeating a process of compressing, filtering and washing the activated carbon which has passed through the activated carbon pretreatment step; a step of drying the activated carbon which has passed through the hydrogen peroxide removing step; and a step of heating the activated carbon under an inactivating condition in which nitrogen gas is continuously injected, after the carbon has passed through the drying step.
    • 本发明涉及一种用于双电层电容器的活性炭重整方法,更具体地说,涉及一种用于双电层电容器的活性炭重整方法,包括通过将活性炭预先处理活性炭的步骤 过氧化氢(H 2 O 2)溶液并搅拌预定时间; 通过重复压缩,过滤和洗涤已经通过活性炭预处理步骤的活性炭的过程来除去活性炭中剩余的过氧化氢的步骤; 干燥已经通过过氧化氢去除步骤的活性炭的步骤; 在碳经过干燥工序后,在连续注入氮气的失活状态下加热活性炭的工序。
    • 9. 发明授权
    • 전해환원법을 이용한 활성탄 개질방법
    • 用电解还原法改性活性炭的改性方法
    • KR100929646B1
    • 2009-12-03
    • KR1020090057635
    • 2009-06-26
    • (주) 퓨리켐
    • 박수길김한주김홍일양정진노진우
    • C01B31/12
    • Y02E60/13C01B32/354C01P2006/12C01P2006/90H01G11/34
    • PURPOSE: A method for modifying activated carbon with an electrolytic reduction method is provided to improve cycle life property by reducing the oxygen content existing in the surface of the activated carbon. CONSTITUTION: A method for modifying activated carbon with an electrolytic reduction method includes the following steps of: adjusting the concentration of basic electrolyte aqueous solution to 10% in a reaction bath(S10); agitating activated charcoal and the basic electrolyte aqueous solution for 4 ~ 6 minutes after inputting the basic electrolyte aqueous solution of 97 ~ 99 wt% and the activated charcoal of 1 ~ 3 wt%(S20); installing a carbon stick electrode of a cathode and an anode in a separated space(S30); injecting a current and voltage with the carbon stick electrode(S40); washing the reformed activated charcoal with distilled waters(S50); and decompressing the activated charcoal at a temperature of 85 ~ 95°C(S60).
    • 目的:提供一种通过电解还原法改性活性炭的方法,通过减少存在于活性炭表面的氧含量来改善循环寿命。 构成:用电解还原法改性活性炭的方法包括以下步骤:在反应槽中调节碱性电解质水溶液的浓度至10%(S10); 在输入97〜99重量%的碱性电解液水溶液和1〜3重量%的活性炭(S20)后,搅拌活性炭和碱性电解质水溶液4〜6分钟; 在分离的空间中安装阴极和阳极的碳棒电极(S30); 用碳棒电极注入电流和电压(S40); 用蒸馏水洗涤改性的活性炭(S50); 并在85〜95℃的温度下对活性炭进行减压(S60)。
    • 10. 发明公开
    • 이중유리 전면도어 냉장고의 조명 배치 구조
    • 双玻璃前门冰箱的照明布置结构
    • KR1020170083733A
    • 2017-07-19
    • KR1020160002975
    • 2016-01-11
    • 박수길
    • 박수길
    • F25D27/00F25D23/02F21V33/00F21Y101/02
    • 이중유리전면도어냉장고의조명배치구조가개시된다. 개시되는이중유리전면도어냉장고의조명배치구조는서로이격된외측유리와내측유리로이루어져서, 냉장고본체내부가외부에서보이도록하면서상기냉장고본체내부를외부에대하여밀폐시키는이중유리전면도어; 및상기이중유리전면도어사이공간에배치되어, 상기냉장고본체내부를향해발광할수 있는엘이디램프;를포함한다. 개시되는이중유리전면도어냉장고의조명배치구조에의하면, 냉장고본체내부공간을침범하지않고, 냉장고본체내부의냉기와접촉하지않아냉기상쇄현상발생이방지될수 있으면서도, 엘이디램프가냉장고본체내부를향해광을직접비출수 있게되고, 이중유리전면도어에서의결로발생및 냉기상쇄현상발생이방지될수 있어서, 에너지효율이향상될수 있게되는장점이있다.
    • 公开了一种双玻璃前门冰箱的照明布置结构。 双层玻璃前门冰箱公开的结构的照明装置是一个双层玻璃前门yirueojyeoseo到外玻璃和内玻璃彼此间隔,而内侧冰箱主体向外部显示用于密封冰箱主体与外界的内部; 并且在双层玻璃前门之间的空间内设置一个LED灯,可以向冰箱内部发射光线。 根据双层玻璃前门冰箱的照明布置被发起的,而不涉及冰箱本体的内部空间,而不是在与冰箱主体冷污损现象内的冷气接触防止是又,LED灯的光朝着冰箱本体的内部 并且可以防止在双层玻璃前门中出现结露和冷空气偏移,从而可以提高能量效率。