公开(公告)号：KR1020090107273A

公开(公告)日：2009-10-13

申请号：KR1020080032692

申请日：2008-04-08

Applicant: 한국에너지기술연구원 ,  한국원자력연구원

Inventor： 김태환 ,  배기광 ,  정헌도 ,  추고연 ,  김동국 ,  이태범 ,  이원재

IPC: B01D71/00

Abstract: PURPOSE: A manufacturing method of an acid-resistant ceramics isolation film using an electrophoresis method is provided to produce the isolation film having superior transmembrane characteristic. CONSTITUTION: A manufacturing method of an acid-resistant ceramics isolation film using an electrophoresis method includes the following steps of: manufacturing synthetic fluid by mixing template and liquid; supporting a membrane substrate on the synthetic fluid; manufacturing the supported synthetic fluid at a reaction temperature of 50-80°C and operation voltage of 1-3V after injecting the synthetic fluid into an electrophoresis system; and post-processing a produced sample at a sintering temperature of 300-800°C after drying the sample at a reaction temperature of 50-80°C.

Abstract translation: 目的：提供使用电泳法的耐酸陶瓷隔离膜的制造方法，制造具有优异的跨膜特性的隔离膜。 构成：使用电泳法的耐酸陶瓷隔离膜的制造方法包括以下步骤：通过混合模板和液体制造合成流体; 在合成液体上支撑膜基材; 在将合成流体注入电泳系统后，在50-80℃的反应温度和1-3V的操作电压下制造负载的合成流体; 并在50-80℃的反应温度下干燥样品后，在300-800℃的烧结温度下对所生产的样品进行后处理。

公开(公告)号：KR1020090080803A

公开(公告)日：2009-07-27

申请号：KR1020080006770

申请日：2008-01-22

Applicant: 한국에너지기술연구원

Inventor： 조원철 ,  김병권 ,  한상섭 ,  박주식 ,  배기광 ,  심규성 ,  김창희 ,  강경수

IPC: G01N7/00 ,  G01M99/00

CPC classification number: G01N7/00 ,  G01M99/008 ,  Y02E60/32

Abstract: A hydrogen storage performance evaluation apparatus using a volume method and a control method thereof are provided to prevent damage to instrument due to corrosion and leakage of a pipe and a connection part by controlling the temperature of a constant temperature chamber using a thermoelectric element. A hydrogen storage performance evaluation apparatus using a volume method comprises a main body(10), a hydrogen supply pipe, a helium supply pipe, a main pipe, a test cell(66), and a vacuum pipe. The main body has a constant temperature chamber(20) maintaining the fixed temperature with a thermoelectric element. The hydrogen supply pipe supplies hydrogen to the constant temperature chamber. The helium supply pipe supplies the helium which is inactive gas to the constant temperature chamber. The main pipe is arranged inside the constant temperature chamber and one end of the main pipe is supplied with each gas from the hydrogen supply pipe and the helium supply pipe and the other end has a outlet which is exposed from the outside of the constant temperature chamber. The test cell is detachably mounted at the end part of an outlet pipe(60) which is drawn out of the main body. The vacuum pipe is connected to the main pipe.

Abstract translation: 提供使用体积法及其控制方法的储氢性能评价装置，以通过使用热电元件控制恒温室的温度来防止由于管和连接部的腐蚀和泄漏而对仪器造成的损坏。 使用体积法的储氢性能评价装置包括主体（10），氢供给管，氦气供给管，主管，测试电池（66）和真空管。 主体具有通过热电元件保持固定温度的恒温室（20）。 氢气供应管将氢气供应到恒温室。 氦气供应管将不活泼气体的氦气供应到恒温室。 主管布置在恒温室的内部，主管的一端从氢气供给管和氦气供应管供给各气体，另一端具有从恒温室外露出的出口 。 测试电池可拆卸地安装在从主体抽出的出口管（60）的端部处。 真空管连接到主管。

公开(公告)号：KR1020090058237A

公开(公告)日：2009-06-09

申请号：KR1020070124923

申请日：2007-12-04

Applicant: 한국에너지기술연구원

Inventor： 강경수 ,  박주식 ,  김창희 ,  배기광 ,  조원철 ,  심규성 ,  김병권

IPC: C01B3/02

CPC classification number: C01B3/061 ,  C01B32/40 ,  Y02E60/364

Abstract: A methane reforming method and a method of producing high purity hydrogen gas by reacting water with composite metal oxide are provided to offer hydrogen of high purity and to produce liquid hydrocarbon easily. Synthetic gas containing hydrogen and carbon hydroxide is manufactured by partial oxidation of methane with inner oxygen of composite metal oxide containing Cu-Fe or Sn-Fe. The partial oxidation of the methane is performed in 600 ~ 1000 °C. The composite metal oxide has a molar ratio of Cu/Fe or Sn/Fe of 0.1 ~ 0.5. The composite metal oxide is manufactured by using a Fe precursor, a Cu precursor or a Fe precursor and a Sn precursor. The composite metal oxide of 5 ~ 50 weight% is dipped in zirconia, ceria, alumina or their mixture powder or a carrier. The composite metal oxide is manufactured by thermal treatment in a temperature of 700 ~ 1200°C.

Abstract translation: 提供甲烷重整方法和通过水与复合金属氧化物反应生产高纯度氢气的方法，以提供高纯度的氢气并容易地生产液态烃。 含有氢和氢氧化碳的合成气体是通过用含有Cu-Fe或Sn-Fe的复合金属氧化物的内部氧气部分氧化制备的。 甲烷的部分氧化在600〜1000℃下进行。 复合金属氧化物的Cu / Fe或Sn / Fe的摩尔比为0.1〜0.5。 通过使用Fe前体，Cu前体或Fe前体和Sn前体制造复合金属氧化物。 将5〜50重量％的复合金属氧化物浸渍在氧化锆，二氧化铈，氧化铝或其混合粉末或载体中。 复合金属氧化物通过在700〜1200℃的温度下进行热处理而制造。