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公开(公告)号:US10112255B2
公开(公告)日:2018-10-30
申请号:US15319256
申请日:2015-06-17
Applicant: KOREA INSTITUTE OF ENERGY RESEARCH
Inventor: Jong-Soo Park , Kyung-Ran Hwang , Dong-Wook Lee , Ju-Seok Park , Chun-Boo Lee , Sung-Wook Lee , Duck-Kyu Oh , Jin-Woo Park , Min-Ho Jin
IPC: B23K20/00 , B23K20/02 , B23K20/24 , B24C1/10 , B23K101/18 , B23K101/34
Abstract: The present invention relates to a thin plate bonding method or a thin plate assembly, and more particularly, to a thin plate bonding method which includes coating with a coating material after increasing a surface roughness or increasing a surface roughness through coating with a coating material, and then, conducting diffusion bonding, such that excellent bonding strength is achieved even when the diffusion bonding is performed at low temperature and low pressure, thin plate deformation by thermal stress may be prevented, and high air tightness may be obtained since the coating material fills micro-pores.
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公开(公告)号:US20140298993A1
公开(公告)日:2014-10-09
申请号:US14354350
申请日:2012-10-23
Applicant: KOREA INSTITUTE OF ENERGY RESEARCH
Inventor: Shin-Kun Ryi , Jong-Soo Park , Kyung-Ran Hwang , Chun-Boo Lee , Sung-Wook Lee
IPC: B01D53/22
CPC classification number: B01D53/228 , B01D53/22 , B01D63/06 , B01D63/08 , B01D63/087 , B01D69/10 , B01D71/022 , B01D2313/143 , B01D2313/32 , C01B3/503
Abstract: Provided is a hydrogen separation membrane module, and more particularly, a hydrogen separation membrane module having a mixing part capable of increasing hydrogen purification efficiency by maximizing a mixing effect and a dispersion effect of a mixture gas supplied to the hydrogen separation membrane using the mixing part provided with a microchannel to supply the mixture gas to the hydrogen separation membrane.
Abstract translation: 本发明提供一种氢分离膜组件,更具体地说,涉及一种氢分离膜组件,该氢分离膜组件具有能够通过使用混合部分提供给氢分离膜的混合气体的混合效果和分散效果最大化来提高氢净化效率的氢分离膜组件 设有微通道以将混合气体供应到氢分离膜。
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3.发明授权公开(公告)号:US09415343B2
公开(公告)日:2016-08-16
申请号:US14370371
申请日:2013-01-02
Applicant: Korea Institute of Energy Research
Inventor: Jong-Soo Park , Kyung-Ran Hwang , Shin-Kun Ryi , Tae-Hwan Kim , Chun-Boo Lee , Sung-Wook Lee
CPC classification number: B01D53/228 , B01D67/0072 , B01D69/10 , B01D71/022 , B01D2325/22 , C01B3/503 , C01B3/505 , C23C16/30 , C23C16/44 , Y02P30/30
Abstract: The present invention relates to a hydrogen separation membrane which coats granular ceramic onto the surface of a porous metal support and which coats a hydrogen permeation metal thereon so as to inhibit diffusion between the support and a hydrogen separation layer, and to a method for manufacturing same. As a result, the metal support can be modularized with ease, the hydrogen permeation layer can be made thinner to increase the amount of hydrogen permeation, the use of a separation material can be minimized, and the hydrogen separation membrane can have higher competitiveness.
Abstract translation: 氢分离膜技术领域本发明涉及一种氢分离膜,其将粒状陶瓷涂覆在多孔金属载体的表面上,并且在其上涂覆氢渗透金属,以抑制载体和氢分离层之间的扩散,以及其制造方法 。 结果,金属支撑体可以容易地模块化,可以使氢渗透层更薄以增加氢渗透量,可以使分离材料的使用最小化,并且氢分离膜可以具有更高的竞争力。
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4.发明申请公开(公告)号:US20150020686A1
公开(公告)日:2015-01-22
申请号:US14370371
申请日:2013-01-02
Applicant: Korea Institute of Energy Research
Inventor: Jong-Soo Park , Kyung-Ran Hwang , Shin-Kun Ryi , Tae-Hwan Kim , Chun-Boo Lee , Sung-Wook Lee
CPC classification number: B01D53/228 , B01D67/0072 , B01D69/10 , B01D71/022 , B01D2325/22 , C01B3/503 , C01B3/505 , C23C16/30 , C23C16/44 , Y02P30/30
Abstract: The present invention relates to a hydrogen separation membrane which coats granular ceramic onto the surface of a porous metal support and which coats a hydrogen permeation metal thereon so as to inhibit diffusion between the support and a hydrogen separation layer, and to a method for manufacturing same. As a result, the metal support can be modularized with ease, the hydrogen permeation layer can be made thinner to increase the amount of hydrogen permeation, the use of a separation material can be minimized, and the hydrogen separation membrane can have higher competitiveness.
Abstract translation: 氢分离膜技术领域本发明涉及一种氢分离膜,其将粒状陶瓷涂覆在多孔金属载体的表面上,并且在其上涂覆氢渗透金属,以抑制载体和氢分离层之间的扩散,以及其制造方法 。 结果,金属支撑体可以容易地模块化,可以使氢渗透层更薄以增加氢渗透量,可以使分离材料的使用最小化,并且氢分离膜可以具有更高的竞争力。
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