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    • 1. 发明授权
    • Electrochemical cell separator
    • 电化学电池分离器
    • US06428585B1
    • 2002-08-06
    • US09640827
    • 2000-08-16
    • Johan Coetzer
    • Johan Coetzer
    • B28B2152
    • H01M10/3918H01M2/16H01M2/18Y10T29/49108Y10T29/4911
    • The invention provides a method of making a ceramic solid electrolyte separator for a high temperature electrochemical cell from a particulate starting material capable of being sintered to form a unitary polycrystalline solid electrolyte ceramic artifact. The method includes admixing the particulate starting material with a binder to form an extrudable mixture, extruding the mixture to form a unitary sinterable green artifact including a multiplicity of at least five tubes interconnected together in side-by-side relationship and sintering the green artifact to form a sintered polycrystalline ceramic solid electrolyte artifact. The artifact includes a multiplicity of at least five ceramic solid electrolyte separator tubes interconnected together by sintering and arranged in side-by-side relationship.
    • 本发明提供了一种从能够烧结形成单一多晶固体电解质陶瓷伪影的颗粒起始材料制备用于高温电化学电池的陶瓷固体电解质分离器的方法。 该方法包括将颗粒原料与粘合剂混合以形成可挤出的混合物,挤出混合物以形成一体的可烧结的绿色假象,其包括多个并排关系在一起的多个至少五个管并将绿色假象烧结到 形成烧结多晶陶瓷固体电解质伪影。 该装置包括多个至少五个陶瓷固体电解质分离器管,其通过烧结互连在一起并排并排布置。
    • 2. 发明授权
    • High temperature electrochemical cell with molten alkali metal anode
    • 高温电化学电池与熔融碱金属阳极
    • US6007943A
    • 1999-12-28
    • US20214
    • 1998-02-06
    • Johan Coetzer
    • Johan Coetzer
    • H01M10/39H01M10/42
    • H01M10/39H01M10/399H01M10/3909H01M10/3963H01M2010/4292
    • An electrochemical cell comprises a housing defining an interior space, and a separator in the housing dividing said space into an anode compartment and a cathode compartment. A sodium anode is in the anode compartment, a cathode being in the cathode compartment, electrochemically coupled by the separator to the anode. The anode is molten, the separator being a conductor of sodium cations and comprising at least 5 tubes having open and closed ends, the cathode being in the tubes and each tube communicating with a header space in an electronically insulating header. The relationship of the combined area of the tubes available for sodium conduction, and the volume of the interior space, as defined by the quotient: ##EQU1## (in which l is a unit length), has a value of at least 1.0 l.sup.-1.
    • 电化学电池包括限定内部空间的壳体和壳体中的隔板,将所述空间分成阳极室和阴极室。 钠阳极位于阳极室中,阴极位于阴极室中,通过隔板与阳极电化学耦合。 阳极熔化,分离器是钠阳离子的导体,并且包括至少5个具有开放和封闭端的管,阴极在管中,每个管与电绝缘集管中的集管空间连通。 可用于钠导电的管的组合面积和由商(其中l是单位长度)定义的内部空间的体积之间的关系具有至少1.0l -1的值。
    • 3. 发明授权
    • Electrode for an electrochemical cell, and an electrochemical cell
    • 用于电化学电池的电极和电化学电池
    • US4287268A
    • 1981-09-01
    • US58145
    • 1979-07-17
    • Johan Coetzer
    • Johan Coetzer
    • H01M4/02H01M4/66H01M10/36H01M10/39
    • H01M10/36H01M4/02H01M4/66
    • An electrode for an electrochemical cell, the electrode comprising an electrochemically active substance selected from:(a) the group comprising or including the halogens, the alkali metals, the alkaline earth metals the first and second series of transition elements, lead, phosphorus, arsenic, antimony, bismuth, and aluminium;(b) an oxygen, sulphur or selenium composition; or(c) a composition containing carbon, baron, silicon or nitrogen with any of the substances of (a) or (b);and a zeolite molecular sieve carrier wherein the electrochemically active substance is sorbed and is held in dispersed form for effective use in a cell. An electrochemical cell including a pair of electrodes and an electrolyte, at least one electrode comprising an electrode as defined above.
    • 一种用于电化学电池的电极,所述电极包括选自以下的电化学活性物质:(a)包含或包括卤素,碱金属,碱土金属的第一和第二系列过渡元素的铅,铅,磷,砷 ,锑,铋和铝; (b)氧,硫或硒组成; 或(c)含有(a)或(b)的任何物质的含有碳,硼,硅或氮的组合物; 和沸石分子筛载体,其中所述电化学活性物质被吸附并保持分散形式用于在电池中有效使用。 包括一对电极和电解质的电化学电池,至少一个电极,其包含如上所定义的电极。
    • 5. 发明授权
    • Electrochemical cell
    • 电化学电池
    • US5604053A
    • 1997-02-18
    • US480252
    • 1995-06-07
    • Johan CoetzerIsak L. Vlok
    • Johan CoetzerIsak L. Vlok
    • H01M4/58H01M10/39
    • H01M10/39H01M4/582Y10T29/49108
    • The invention provides an electrochemical cell, a cathode therefor and methods of making them. The cell is of the high temperature alkali metal/transition metal halide type, having a molten sodium anode, a nickel/nickel chloride cathode, an essentially sodium aluminium chloride molten salt electrolyte and a solid electrolyte sodium ion conducting separator which separates the sodium from the molten salt electrolyte. The nickel/nickel chloride is dispersed in solid form in a porous electronically conductive electrolyte-permeable matrix which is impregnated by the molten salt electrolyte, and antimony in finely divided solid form is mixed with the nickel/nickel chloride in the matrix. The mass ratio of antimony to the nickel in the nickel chloride in the cell in its fully charged state is 2:100-130:100.
    • 本发明提供一种电化学电池,其阴极及其制造方法。 电池是高温碱金属/过渡金属卤化物类型,具有熔融钠阳极,镍/氯化镍阴极,基本上是氯化钠铝盐电解质和固体电解质钠离子导电分离器,其将钠与 熔盐电解液。 镍/氯化镍以固体形式分散在由熔融盐电解质浸渍的多孔电子导电电解质渗透性基质中,细碎固体形式的锑与基质中的镍/氯化镍混合。 电池中完全充电状态下的氯化镍中锑与镍的质量比为2:100-130:100。
    • 6. 发明授权
    • Electrolyte holder
    • 电解质支架
    • US5269988A
    • 1993-12-14
    • US16025
    • 1993-02-10
    • Johan Coetzer
    • Johan Coetzer
    • B22F5/06B28B3/00B30B11/00H01M2/18H01M10/39C04B35/64
    • H01M10/3936B22F5/06B28B3/003B30B11/001H01M2/18
    • The invention provides a method and apparatus for making an electrochemical cell solid electrolyte holder. A layer of solid electrolyte powder or its precursor is formed around an externally screw threaded mandrel. The powder is pressed to form the holder in a green state with internal threads formed by the mandrel. The mandrel is screwed axially out of the green holder, after which the green holder is sintered. In the apparatus there is a mandrel which has external threads, and a flexible sheath. The mandrel is receivable in the sheath to provide an annular space around the mandrel for receiving a powder to be isostatically pressed by the sheath. The space is provided between the sheath and a mold, but can, instead, be provided between the mandrel and sheath, or between two sheaths between the mold and mandrel.
    • 本发明提供一种用于制造电化学电池固体电解质保持器的方法和装置。 在外螺纹心轴周围形成一层固体电解质粉末或其前体。 粉末被压制以形成具有由心轴形成的内螺纹的保持器。 心轴沿轴向旋出绿色支架,之后烧结保持架。 在该装置中,存在具有外螺纹的心轴和柔性护套。 心轴可接收在护套中以围绕心轴提供环形空间,用于接收待被护套等静压的粉末。 空间设置在护套和模具之间,而是可以设置在心轴和护套之间,或者在模具和心轴之间的两个护套之间。
    • 7. 发明授权
    • Apparatus for making a solid electrolyte holder
    • 用于制造固体电解质保持器的装置
    • US5221542A
    • 1993-06-22
    • US773322
    • 1991-10-09
    • Johan Coetzer
    • Johan Coetzer
    • B22F5/06B28B3/00B30B11/00H01M2/18H01M10/39
    • H01M10/3936B22F5/06B28B3/003B30B11/001H01M2/18Y10S425/044
    • The invention provides a method and apparatus for making an electrochemical cell solid electrolyte holder. A layer of solid electrolyte powder or its precursor is formed around an externally screw threaded mandrel. The powder is pressed to form the holder in a green state with internal threads formed by the mandrel. The mandrel is screwed axially out of the green holder, after which the green holder is sintered. In the apparatus there is a mandrel which has external threads, and a flexible sheath. The mandrel is receivable in the sheath to provide an annular space around the mandrel for receiving a powder to be isostatically pressed by the sheath. The space is provided between the sheath and a mould, but can, instead, be provided between the mandrel and sheath, or between two sheaths between the mould and mandrel.
    • 本发明提供一种用于制造电化学电池固体电解质保持器的方法和装置。 在外螺纹心轴周围形成一层固体电解质粉末或其前体。 粉末被压制以形成具有由心轴形成的内螺纹的保持器。 心轴沿轴向旋出绿色支架,之后烧结保持架。 在该装置中,存在具有外螺纹的心轴和柔性护套。 心轴可接收在护套中以围绕心轴提供环形空间,用于接收待被护套等静压的粉末。 空间设置在护套和模具之间,而是可以设置在心轴和护套之间,或者在模具和心轴之间的两个护套之间。
    • 8. 发明授权
    • Electrochemical cell
    • 电化学电池
    • US4797333A
    • 1989-01-10
    • US057368
    • 1987-06-02
    • Johan CoetzerRoger J. Wedlake
    • Johan CoetzerRoger J. Wedlake
    • H01M10/39H01M6/00H01M10/44
    • H01M10/39Y10T29/49108
    • The invention provides a method of making an electrochemical cell. The method comprises loading, into the cathode compartment of the cell an alkali metal aluminium halide molten salt electrolyte having the formula MAlHal.sub.4 wherein M is the alkali metal of the separator and Hal is a halide; an alkali metal halide MHal wherein M and Hal are respectively the same alkali metal and halide as in the molten salt electrolyte; aluminium; and an active cathode substance which includes a transition metal T selected from the group conprising Fe, Ni, Co, Cr, Mn and mixtures thereof. An electrochemical cell precursor is thereby made. When the precursor is subjected to charging at a temperature at which the molten salt electrolyte and alkali metal M are molten, aluminium reacts with the alkali metal halide MHal to produce further said molten salt electrolyte and to form said alkali metal M, the alkali metal M passing through the separator into the anode compartment. After all the aluminium has reacted with the alkali metal halide to provide a cell in a discharged state, the active cathode substance is halogenated, with further alkali metal M being produced and passing through the separator into the anode compartment, the proportions of alkali metal halide MHal, molten salt electrolyte and aluminium loaded into the cathode compartment being selected so that when the cell is fully charged and all the available active cathode substances has been halogenated, the proportion of alkali metal ions and aluminium ions in the electrolyte being selected such that the solubility of the active cathode substance in the molten electrolyte is at or near its minimum.
    • 本发明提供一种制造电化学电池的方法。 该方法包括将具有式MA1Hal4的碱金属卤化铝熔盐盐电解质加入电池的阴极室,其中M为隔板的碱金属,Hal为卤化物; 碱金属卤化物,其中M和Hal分别与熔融盐电​​解质中相同的碱金属和卤化物; 铝; 以及活性阴极物质,其包含选自Fe,Ni,Co,Cr,Mn及其混合物的组的过渡金属T. 由此制成电化学电池前体。 当前体在熔融盐电解质和碱金属M熔融的温度下进行充电时,铝与碱金属卤化物MHal反应产生进一步的所述熔盐电解质并形成所述碱金属M,碱金属M 通过分离器进入阳极室。 在所有铝与碱金属卤化物反应以提供放电状态的电池之后,活性阴极物质被卤化,产生另外的碱金属M并通过隔板进入阳极室,碱金属卤化物的比例 选择MHal,熔盐电解质和负载到阴极室中的铝,使得当电池充满电并且所有可用的活性阴极物质都被卤化时,选择电解质中的碱金属离子和铝离子的比例使得 活性阴极物质在熔融电解液中的溶解度处于或接近其最小值。
    • 9. 发明授权
    • Electrochemical cell
    • 电化学电池
    • US4592969A
    • 1986-06-03
    • US737442
    • 1985-05-24
    • Johan CoetzerMargaretha Nolte
    • Johan CoetzerMargaretha Nolte
    • H01M4/58H01M10/39
    • H01M4/58H01M10/39
    • The invention relates to a rechargeable high temperature electrochemical cell having a molten sodium anode, a molten halide salt liquid electrolyte, a compatible cathode in contact with the liquid electrolyte, and a beta-alumina solid electrolyte between the anode and liquid electrolyte and isolating them from each other. The liquid electrolyte is non-acidic and contains sodium cations as its only alkali metal cations, aluminum cations and chloride anions and is doped with fluoride anions to combat progressively increasing internal resistance of the cell associated with cyclic charging and discharging thereof.
    • 本发明涉及一种具有熔融钠阳极,熔融卤化物盐液体电解质,与液体电解质接触的相容阴极和在阳极和液体电解质之间的β-氧化铝固体电解质的可再充电高温电化学电池, 彼此。 液体电解质是非酸性的,并且包含钠阳离子作为其唯一的碱金属阳离子,铝阳离子和氯化物阴离子,并且掺杂有氟阴离子,以防止逐渐增加与其循环充电和放电相关的电池的内部电阻。