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    • 1. 发明申请
    • CATALYST CONTAINING OXYGEN TRANSPORT MEMBRANE
    • 催化剂含氧运输膜
    • WO2014074559A1
    • 2014-05-15
    • PCT/US2013/068657
    • 2013-11-06
    • PRAXAIR TECHNOLOGY, INC.
    • LANE, Jonathan, A.WILSON, Jamie, R.CHRISTIE, Gervase, Maxwell
    • B01D53/22C01B13/02B01D71/02B01D67/00B01D69/10B01D69/12
    • B01D53/228B01D67/0041B01D69/10B01D69/12B01D71/024B01D2323/18C01B13/0255
    • A composite oxygen transport membrane having a dense layer, a porous support layer and an intermediate porous layer located between the dense layer and the porous support layer. Both the dense layer and the intermediate porous layer are formed from an ionic conductive material to conduct oxygen ions and an electrically conductive material to conduct electrons. The porous support layer has a high permeability, high porosity, and a microstructure exhibiting substantially uniform pore size distribution as a result of using PMMA pore forming materials or a bi-modal particle size distribution of the porous support layer materials. Catalyst particles selected to promote oxidation of a combustible substance are located in the intermediate porous layer and in the porous support adjacent to the intermediate porous layer. The catalyst particles can be formed by wicking a solution of catalyst precursors through the porous support toward the intermediate porous layer.
    • 一种复合氧传输膜,其具有致密层,多孔载体层和位于致密层和多孔载体层之间的中间多孔层。 致密层和中间多孔层都由离子导电材料形成以导电氧离子和导电材料以导电。 由于使用PMMA孔隙形成材料或多孔载体层材料的双峰粒度分布,多孔载体层具有高渗透性,高孔隙率和显微组织显示出基本均匀的孔径分布。 被选择用于促进可燃物质的氧化的催化剂颗粒位于中间多孔层和邻近中间多孔层的多孔载体中。 可以通过将催化剂前体的溶液通过多孔载体向中间多孔层芯吸而形成催化剂颗粒。
    • 2. 发明申请
    • COMPOSITE OXYGEN ION TRANSPORT MEMBRANE
    • 复合氧离子运输膜
    • WO2016057164A1
    • 2016-04-14
    • PCT/US2015/049949
    • 2015-09-14
    • PRAXAIR TECHNOLOGY, INC
    • LANE, Jonathan, A.LU, ZiguiPLONCZAK, Pawel, J.
    • B01D53/22B01D69/10B01D69/12B01D71/02C01B13/02
    • B01D71/024B01D53/228B01D67/0046B01D69/02B01D69/10B01D69/12B01D2325/023B01D2325/04B01D2325/26C01B13/0255
    • A composite oxygen ion transport membrane having a dense layer, a porous support layer, an optional intermediate porous layer located between the porous support layer and the dense layer and an optional surface exchange layer, overlying the dense layer. The dense layer has electronic and ionic phases. The ionic phase is composed of scandia doped, yttrium or cerium stabilized zirconia. The electronic phase is composed of a metallic oxide containing lanthanum, strontium, chromium, iron and cobalt. The porous support layer is composed of zirconia partially stabilized with yttrium, scandium, aluminum or cerium or mixtures thereof. The intermediate porous layer, if used, contains the same ionic and electronic phases as the dense layer. The surface exchange layer is formed of an electronic phase of a metallic oxide of lanthanum and strontium that also contains chromium, iron and cobalt and an ionic phase of scandia doped zirconia stabilized with yttrium or cerium.
    • 具有致密层的复合氧离子传输膜,多孔载体层,位于多孔载体层和致密层之间的任选的中间多孔层和覆盖致密层的任选的表面交换层。 致密层具有电子和离子相。 离子相由掺杂钪,钇或铈稳定的氧化锆组成。 电子相由含有镧,锶,铬,铁和钴的金属氧化物组成。 多孔支撑层由用钇,钪,铝或铈部分稳定的氧化锆或其混合物组成。 如果使用中间多孔层,则包含与致密层相同的离子和电子相。 表面交换层由还含有铬,铁和钴的镧和锶的金属氧化物的电子相和由钇或铈稳定的掺杂氧化钪的离子相形成。