-
1.发明申请METHOD OF MANUFACTURING A FUEL CELL STACK HAVING AN ELECTRICALLY CONDUCTIVE INTERCONNECT 有权制造具有电导体互连的燃料电池堆的方法公开(公告)号:US20150303490A1
公开(公告)日:2015-10-22
申请号:US13623455
申请日:2012-09-20
申请人: SUBHASISH MUKERJEE , KARL JACOB HALTINER, Jr. , KERRY D. MEINHARDT , JIN YONG KIM , ERIC S. MAST , VINCENT L. SPRENKLE
发明人: SUBHASISH MUKERJEE , KARL JACOB HALTINER, Jr. , KERRY D. MEINHARDT , JIN YONG KIM , ERIC S. MAST , VINCENT L. SPRENKLE
CPC分类号: H01M8/0228 , H01M8/021 , H01M8/124 , H01M8/1246 , H01M8/2404 , H01M8/2425 , H01M2008/1293 , H01M2300/0071 , Y02P70/56
摘要: A method of manufacturing a solid oxide fuel cell stack having an electrically conductive interconnect, including the steps of: (a) providing a first fuel cell and a second fuel cell, (b) providing a substrate having an iron-chromium alloy, (c) depositing a layer of metallic cobalt over a portion of substrate surface, (d) subjecting the layer of metallic cobalt to reducing conditions, (e) then exposing the remaining portion of the layer of metallic cobalt to oxidizing conditions for a predetermined time and temperature, such that the surface portion of the layer of metallic cobalt is oxidized to cobalt oxide, thereby forming the electrically conductive interconnect having a layer of metallic cobalt sandwiched between a surface layer of cobalt oxide and the layer of cobalt-iron-chromium alloy, and (f) sandwiching the substrate between the first and second fuel cells.
摘要翻译: 一种制造具有导电互连的固体氧化物燃料电池堆的方法,包括以下步骤:(a)提供第一燃料电池和第二燃料电池,(b)提供具有铁 - 铬合金的基体,(c )在基底表面的一部分上沉积一层金属钴,(d)使金属钴层经历还原条件,(e)然后将金属钴层的剩余部分暴露于氧化条件达预定的时间和温度 使得金属钴层的表面部分被氧化为氧化钴,从而形成导电互连,其具有夹在钴氧化物的表面层和钴 - 铁 - 铬合金层之间的金属钴层,以及 (f)将基板夹在第一和第二燃料电池之间。
-
2.发明申请公开(公告)号:US20120240391A1
公开(公告)日:2012-09-27
申请号:US13069694
申请日:2011-03-23
IPC分类号: H01M10/38
CPC分类号: H01M4/0433 , H01M4/043 , H01M4/0471 , H01M4/0483 , H01M4/62 , H01M10/399 , Y10T29/49108 , Y10T29/53139
摘要: The approaches and apparatuses for fabricating cathodes can be adapted to improve control over cathode composition and to better accommodate batteries of any shape and their assembly. For example, a first solid having an alkali metal halide, a second solid having a transition metal, and a third solid having an alkali metal aluminum halide are combined into a mixture. The mixture can be heated in a vacuum to a temperature that is greater than or equal to the melting point of the third solid. When the third solid is substantially molten liquid, the mixture is compressed into a desired cathode shape and then cooled to solidify the mixture in the desired cathode shape.
摘要翻译: 用于制造阴极的方法和装置可以适于改善对阴极组成的控制并且更好地适应任何形状的电池和它们的组装。 例如,将具有碱金属卤化物的第一固体,具有过渡金属的第二固体和具有碱金属卤化铝的第三固体合并成混合物。 混合物可以在真空中加热到大于或等于第三固体熔点的温度。 当第三固体是基本上熔融的液体时,将混合物压缩成所需的阴极形状,然后冷却以使混合物固化成所需的阴极形状。
-
3.发明授权Solid oxide fuel cell anodes and electrodes for other electrochemical devices 有权固体氧化物燃料电池阳极和其他电化学装置的电极公开(公告)号:US07244526B1
公开(公告)日:2007-07-17
申请号:US10425858
申请日:2003-04-28
CPC分类号: H01M4/8621 , H01M4/8885 , H01M4/9066 , H01M8/1226 , H01M8/1253 , Y02E60/525 , Y02P70/56 , Y10T29/417
摘要: An anode supported electrochemical device, such as a SOFC, is disclosed. A thin layer of electrolyte 310 is supported on an anode layer comprised of an active anode layer 320 and a bulk anode layer 340. The bulk anode layer includes silicon carbide 340 in an amount between about 0.5 and 10% by weight. A cathode layer on an opposing side of the electrolyte completes the cell. The presence of the silicon carbide 340 in the supporting anode layer 340 has been found to reduce room temperature camber due to thermal expansion coefficient mismatches.
摘要翻译: 公开了一种阳极支撑的电化学装置,例如SOFC。 电解质310的薄层被支撑在由活性阳极层320和体阳极层340组成的阳极层上。体阳极层包括约0.5-10重量%的量的碳化硅340。 在电解质的相对侧上的阴极层完成电池。 发现支撑阳极层340中的碳化硅340的存在由于热膨胀系数的不匹配而降低了室温的弯度。
-
4.发明授权公开(公告)号:US06383350B1
公开(公告)日:2002-05-07
申请号:US09626794
申请日:2000-07-26
IPC分类号: C25B1100
CPC分类号: H01M8/1231 , H01M4/9033 , H01M8/1246 , H01M8/243 , Y02E60/525 , Y02P70/56
摘要: A method of manufacturing a thin film electrochemical apparatus is disclosed. A near net shape ceramic element is molded including a planar base region and a plurality of tubular regions. The planar base region is infiltrated with a non-conductive material. Each of the tubular regions is infiltrated with a porous conductive material. A porous catalytic electrode material is applied onto the infiltrated regions to form one of a cathodic and anodic surface. A ceramic electrolyte coating is deposited onto the porous catalytic electrode material. A porous catalytic electrode material is applied onto the deposited ceramic electrolyte coating. A porous conductive material is deposited onto the porous catalytic electrode to form the other of the cathodic and anodic surface.
摘要翻译: 公开了制造薄膜电化学装置的方法。 模制的近净形陶瓷元件包括平坦的基底区域和多个管状区域。 平面基区被非导电材料渗透。 每个管状区域被多孔导电材料渗透。 将多孔催化电极材料施加到渗透区域上以形成阴极和阳极表面之一。 在多孔催化电极材料上沉积陶瓷电解质涂层。 将多孔催化电极材料施加到沉积的陶瓷电解质涂层上。 多孔导电材料沉积到多孔催化电极上以形成阴极和阳极表面中的另一个。
-
公开(公告)号:US06352624B1
公开(公告)日:2002-03-05
申请号:US09573891
申请日:2000-05-19
IPC分类号: C25B900
CPC分类号: B01D53/326 , Y02P20/129
摘要: This invention relates to devices for separating oxygen from more complex gasses such as air which contains oxygen, and delivering the separated-oxygen at an elevated pressure for use immediately, or for storage and use later. More particularly, the invention relates to solid state electrochemical devices for separating oxygen from more complex gasses to produce the desired oxygen and delivering the oxygen at elevated pressures up to and exceeding 2000 psig.
摘要翻译: 本发明涉及用于从更复杂的气体(例如包含氧气的空气)中分离氧的装置,并且在升高的压力下输送分离的氧气以便立即使用,或用于以后的储存和使用。 更具体地说,本发明涉及用于从更复杂的气体中分离氧气以产生所需氧气并在高达和超过2000psig的升高的压力下输送氧气的固态电化学装置。
-
6.发明授权公开(公告)号:US09437880B2
公开(公告)日:2016-09-06
申请号:US13623455
申请日:2012-09-20
申请人: Subhasish Mukerjee , Karl Jacob Haltiner, Jr. , Kerry D. Meinhardt , Jin Yong Kim , Eric S. Mast , Vincent L. Sprenkle
发明人: Subhasish Mukerjee , Karl Jacob Haltiner, Jr. , Kerry D. Meinhardt , Jin Yong Kim , Eric S. Mast , Vincent L. Sprenkle
CPC分类号: H01M8/0228 , H01M8/021 , H01M8/124 , H01M8/1246 , H01M8/2404 , H01M8/2425 , H01M2008/1293 , H01M2300/0071 , Y02P70/56
摘要: A method of manufacturing a solid oxide fuel cell stack having an electrically conductive interconnect, including the steps of: (a) providing a first fuel cell and a second fuel cell, (b) providing a substrate having an iron-chromium alloy, (c) depositing a layer of metallic cobalt over a portion of substrate surface, (d) subjecting the layer of metallic cobalt to reducing conditions, (e) then exposing the remaining portion of the layer of metallic cobalt to oxidizing conditions for a predetermined time and temperature, such that the surface portion of the layer of metallic cobalt is oxidized to cobalt oxide, thereby forming the electrically conductive interconnect having a layer of metallic cobalt sandwiched between a surface layer of cobalt oxide and the layer of cobalt-iron-chromium alloy, and (f) sandwiching the substrate between the first and second fuel cells.
摘要翻译: 一种制造具有导电互连的固体氧化物燃料电池堆的方法,包括以下步骤:(a)提供第一燃料电池和第二燃料电池,(b)提供具有铁 - 铬合金的基体,(c )在基底表面的一部分上沉积一层金属钴,(d)使金属钴层经历还原条件,(e)然后将金属钴层的剩余部分暴露于氧化条件达预定的时间和温度 使得金属钴层的表面部分被氧化为氧化钴,从而形成导电互连,其具有夹在钴氧化物的表面层和钴 - 铁 - 铬合金层之间的金属钴层,以及 (f)将基板夹在第一和第二燃料电池之间。
-
">
7.发明申请PROCESS FOR FABRICATION OF ENHANCED ß"-ALUMINA SOLID ELECTROLYTES FOR ENERGY STORAGE DEVICES AND ENERGY APPLICATIONS 审中-公开用于制造能量储存装置和能源应用的增强型“â” - 固体电解质的方法公开(公告)号:US20160056499A1
公开(公告)日:2016-02-25
申请号:US14465476
申请日:2014-08-21
IPC分类号: H01M10/0562 , H01M10/054
CPC分类号: H01M10/0562 , C01F7/002 , C01F7/028 , C01G25/00 , C01G25/02 , C01P2002/50 , C01P2002/54 , C01P2002/72 , C01P2006/40 , C04B35/113 , C04B35/119 , C04B35/4885 , C04B35/64 , C04B2235/3201 , C04B2235/3203 , C04B2235/3218 , C04B2235/3225 , C04B2235/3232 , C04B2235/3244 , C04B2235/3246 , C04B2235/3262 , C04B2235/441 , C04B2235/443 , C04B2235/6025 , C04B2235/604 , C04B2235/6567 , C04B2235/77 , H01M10/054 , H01M10/39 , H01M10/3918 , H01M10/399 , H01M2300/0071 , H01M2300/0077 , H01M2300/0091
摘要: A dense β″-alumina/zirconia composite solid electrolyte and process for fabrication are disclosed. The process allows fabrication at temperatures at or below 1600° C. The solid electrolytes include a dense composite matrix of β″-alumina and zirconia, and one or more transition metal oxides that aid the conversion and densification of precursor salts during sintering. The composite solid electrolytes find application in sodium energy storage devices and power-grid systems and devices for energy applications.
摘要翻译: 公开了一种致密的“氧化铝/氧化锆”复合固体电解质及其制造方法。 该过程允许在等于或低于1600℃的温度下进行制备。固体电解质包括致密的“氧化铝和氧化锆”复合基质以及一种或多种过渡金属氧化物,其有助于烧结期间前体盐的转化和致密化。 复合固体电解质可用于钠储能装置和电力系统和能源应用的装置。
-
8.发明授权Metallization pattern on solid electrolyte or porous support of sodium battery process 有权固体电解质或钠电池多孔载体金属化模式公开(公告)号:US09356314B2
公开(公告)日:2016-05-31
申请号:US13776262
申请日:2013-02-25
申请人: Jin Yong Kim , Guosheng Li , Xiaochuan Lu , Vincent L. Sprenkle , John P. Lemmon
发明人: Jin Yong Kim , Guosheng Li , Xiaochuan Lu , Vincent L. Sprenkle , John P. Lemmon
IPC分类号: H01M6/18 , H01M10/0562 , H01M10/39 , H01M6/20
CPC分类号: H01M10/0562 , H01M6/187 , H01M6/20 , H01M10/3927 , H01M10/3936 , H01M2300/0094
摘要: A new battery configuration and process are detailed. The battery cell includes a solid electrolyte configured with an engineered metallization layer that distributes sodium across the surface of the electrolyte extending the active area of the cathode in contact with the anode during operation. The metallization layer enhances performance, efficiency, and capacity of sodium batteries at intermediate temperatures at or below about 200° C.
摘要翻译: 详细介绍了新的电池配置和流程。 电池单元包括配置有工程化金属化层的固体电解质,其在操作期间将钠分布在电解质的表面上,延伸阴极的有源区域与阳极接触。 金属化层提高钠电池在等于或低于约200℃的中等温度下的性能,效率和容量。
-
9.发明授权Methods and apparatuses for making cathodes for high-temperature, rechargeable batteries 有权用于制造高温可充电电池阴极的方法和装置公开(公告)号:US08728174B2
公开(公告)日:2014-05-20
申请号:US13069694
申请日:2011-03-23
IPC分类号: H01M4/82
CPC分类号: H01M4/0433 , H01M4/043 , H01M4/0471 , H01M4/0483 , H01M4/62 , H01M10/399 , Y10T29/49108 , Y10T29/53139
摘要: The approaches for fabricating cathodes can be adapted to improve control over cathode composition and to better accommodate batteries of any shape and their assembly. For example, a first solid having an alkali metal halide, a second solid having a transition metal, and a third solid having an alkali metal aluminum halide are combined into a mixture. The mixture can be heated in a vacuum to a temperature that is greater than or equal to the melting point of the third solid. When the third solid is substantially molten liquid, the mixture is compressed into a desired cathode shape and then cooled to solidify the mixture in the desired cathode shape.
摘要翻译: 用于制造阴极的方法可以适于改善对阴极组成的控制,并且更好地适应任何形状的电池及其组装。 例如,将具有碱金属卤化物的第一固体,具有过渡金属的第二固体和具有碱金属卤化铝的第三固体合并成混合物。 混合物可以在真空中加热到大于或等于第三固体熔点的温度。 当第三固体是基本上熔融的液体时,将混合物压缩成所需的阴极形状,然后冷却以使混合物固化成所需的阴极形状。
-
公开(公告)号:US20090280369A1
公开(公告)日:2009-11-12
申请号:US12118353
申请日:2008-05-09
申请人: Lawrence A. Chick , Vincent L. Sprenkle , Michael R. Powell , Kerry D. Meinhardt , Greg A. Whyatt
发明人: Lawrence A. Chick , Vincent L. Sprenkle , Michael R. Powell , Kerry D. Meinhardt , Greg A. Whyatt
IPC分类号: H01M8/06
CPC分类号: H01M8/0618 , H01M8/0625 , H01M8/2425 , H01M8/2432 , H01M8/2457 , H01M8/249
摘要: The present invention is a Solid Oxide Fuel Cell Reforming Power System that utilizes adiabatic reforming of reformate within this system. By utilizing adiabatic reforming of reformate within the system the system operates at a significantly higher efficiency than other Solid Oxide Reforming Power Systems that exist in the prior art. This is because energy is not lost while materials are cooled and reheated, instead the device operates at a higher temperature. This allows efficiencies higher than 65%.
摘要翻译: 本发明是在该系统内利用重整产物的绝热重整的固体氧化物燃料电池重整电力系统。 通过在系统内利用重整产物的绝热重整,系统以比现有技术中存在的其它固体氧化物重整功率系统显着更高的效率工作。 这是因为在材料冷却和再加热时能量不会损失,而是器件在较高的温度下工作。 这使得效率高于65%。
-
-
-
-
-
-
-
-
-
搜索结果
30 条记录 (耗时 0.019 秒)
