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    • 1. 发明授权
    • Electrolytic cell
    • 电解池
    • US5340457A
    • 1994-08-23
    • US53743
    • 1993-04-29
    • James M. FordDavid W. Cawlfield
    • James M. FordDavid W. Cawlfield
    • C25B9/04C25B9/08C25B9/20C25B9/00
    • C25B9/08C25B9/04C25B9/20
    • An electrolytic cell construction in which the cell includes at least one anode and cathode, and a separator therebetween held under a compressive force by a frame assembly. The anodes and cathode are provided with a portion for electrical connection to an electric connector plate. The electric connector plate is positioned in contact with a respective anode and cathode. The compressive force of the frame assembly which holds the components of the cell in compression to provide a fluid tight seal simultaneously serves to apply a force between the electrical connector plates and their respective anode or cathode to hold the electrical connector plates in contact therewith. Preferably spring means are provided for biasing the electrical connector plates and the portions of the anode and cathode for connection to the plate into engagement with each other. The spring means is compressed simultaneously with the frame assembly placing the components of the cell under compression so that the spring means forces the anode and cathode electrical connection portions into contact with their respective electrical connector plate.
    • 一种电池单元结构,其中电池包括至少一个阳极和阴极,以及其间通过框架组件在压缩力下保持的隔板。 阳极和阴极设置有用于电连接到电连接器板的部分。 电连接器板与相应的阳极和阴极定位成接触。 同时,将电池组件保持在压缩状态以提供流体密封的框架组件的压缩力用于在电连接器板和它们各自的阳极或阴极之间施加力,以将电连接器板与其接触。 优选地,提供弹簧装置用于偏置电连接器板以及用于连接到板的阳极和阴极的部分彼此接合。 弹簧装置与框架组件同时压缩,将电池的部件压缩,使得弹簧装置迫使阳极和阴极电连接部分与它们各自的电连接器板接触。
    • 5. 发明授权
    • Liquid metal cathode electrochemical cell and cathode frame
    • 液体金属阴极电化学电池和阴极框架
    • US5185069A
    • 1993-02-09
    • US776016
    • 1991-10-15
    • James M. FordDavid W. CawlfieldKenneth E. Woodard, Jr.
    • James M. FordDavid W. CawlfieldKenneth E. Woodard, Jr.
    • C25B1/00C25B9/14
    • C25B1/00C25B9/142
    • A particular side frame design for use in an electrochemical cell with a catholyte flow pattern is disclosed wherein the cell can be generally horizontal or angled slightly from the horizontal and the catholyte is fed through a transition area into a gap in the catholyte compartment between the liquid metal cathode and the membrane on a first end and exits the gap on an opposing second outlet end. The side frame has opposing sides that are obliquely and downwardly angled in the corners to support the membrane in a wrinkle free manner so that the membrane is obliquely positioned between the liquid metal cathode and the anode. The membrane is above the level of the catholyte where the catholyte enters and exits the catholyte compartment, but drops to a level below the entry and exit points.
    • 公开了一种用于具有阴极电解液流动图案的电化学电池的特定侧框架设计,其中电池可以大致水平或与水平面稍微倾斜,并且阴极电解液通过过渡区域进入液体中的阴极电解液室中的间隙 金属阴极和膜在第一端上并在相对的第二出口端离开间隙。 侧框架具有在拐角处倾斜和向下成角度的相对侧面以无皱纹的方式支撑膜,使得膜片倾斜地定位在液体金属阴极和阳极之间。 膜层高于阴极电解液的水平,阴极电解液进出阴极电解液室,但降至入口点和出口点以下的水平。
    • 8. 发明授权
    • Integrated process of using chloric acid to separate zinc oxide and
manganese oxide
    • 使用氯酸分离氧化锌和氧化锰的综合过程
    • US5411643A
    • 1995-05-02
    • US228631
    • 1994-04-18
    • David W. CawlfieldLeslie R. Ward
    • David W. CawlfieldLeslie R. Ward
    • C01G9/02C01G45/02C25C1/16H01M6/52
    • C22B19/22C01G45/02C01G9/02H01M6/52C01P2002/80C01P2004/80Y02P10/234Y02P20/125Y02W30/84
    • A process for producing manganese dioxide and zinc metal comprising the steps of:(1) reacting a mixture of zinc oxide and manganese oxide with an aqueous chloric acid solution wherein the chloric acid is in molar excess of the manganese oxide in a reaction zone to form a reaction mixture in the zone comprising chlorine gas, a solid phase containing manganese dioxide, and a liquid phase containing zinc oxide, chloric acid and water; the concentration of chloric acid in the liquid phase is greater than about 1% by weight of the liquid phase upon leaving the reaction zone;(2) separating the chlorine gas from the solid phase and the liquid phase;(3) separating the solid phase containing manganese dioxide from the liquid phase containing zinc ions, chlorate ions, chloric acid, and water thereby forming a separated solid phase and a separated liquid phase;(4) subjecting the separated liquid phase to electrolysis in an electrochemical cell, thereby producing zinc metal at the cathode and oxygen at the anode;(5) removing water from said separated liquid phase to concentrate the chloric acid in the separated liquid phase thereby forming a separated solid phase and a separated liquid phase;(6) returning the separated and concentrated liquid phase back to the reaction zone; and(7) recovering the zinc metal from the electrolytic cell.
    • 一种生产二氧化锰和锌金属的方法,包括以下步骤:(1)使氧化锌和氧化锰的混合物与氯酸水溶液反应,其中氯酸在反应区中与氧化锰摩尔过量以形成 在包含氯气的区域中的反应混合物,含有二氧化锰的固相和含有氧化锌,氯酸和水的液相; 在离开反应区时,液相中氯酸的浓度大于液相重量的约1%; (2)从固相和液相中分离出氯气; (3)从含有锌离子,氯酸根离子,氯酸和水的液相中分离含有二氧化锰的固相,由此形成分离的固相和分离的液相; (4)在电化学电池中对分离的液相进行电解,从而在阴极处产生锌金属和在阳极处产生氧; (5)从分离的液相中除去水分,将氯酸浓缩在分离的液相中,从而形成分离的固相和分离的液相; (6)使分离浓缩的液相返回到反应区; 和(7)从电解槽回收锌金属。
    • 9. 发明授权
    • Process for producing solid manganese dioxide
    • 生产固体二氧化锰的方法
    • US5401477A
    • 1995-03-28
    • US180838
    • 1994-01-12
    • David W. CawlfieldLeslie R. Ward
    • David W. CawlfieldLeslie R. Ward
    • B01D11/02B01D11/04C01G9/02C01G45/02H01M6/52
    • C01G9/02C01G45/02C22B19/22H01M6/52C01P2002/80C01P2004/80Y02P10/234Y02W30/84
    • A process for producing manganese dioxide comprising the steps of:(1) reacting manganese oxide with a molar excess of an aqueous chloric acid solution in a reaction zone to form a reaction mixture in said zone comprising chlorine gas, a solid phase containing manganese dioxide, and a liquid phase containing chloric acid and water; the concentration of chloric acid in said liquid phase is greater than about 5% by weight of said liquid phase upon leaving the reaction zone;(2) separating said chlorine gas from said solid phase and said liquid phase;(3) separating said solid phase containing manganese dioxide from liquid phase containing chloric acid and water;(4) removing water from said separated liquid phase to concentrate said chloric acid in said separated liquid phase; and(5) returning said separated and concentrated liquid phase back to said reaction zone for further reaction with manganese oxide.
    • 一种制备二氧化锰的方法,包括以下步骤:(1)在反应区中使氧化锰与摩尔过量的氯酸水溶液反应,以在所述的包含氯气的区域中形成反应混合物,含有二氧化锰的固相, 和含有氯酸和水的液相; 所述液相中氯酸的浓度在离开反应区时大于所述液相的约5重量%; (2)从所述固相和所述液相中分离出所述氯气; (3)从包含氯酸和水的液相中分离含有二氧化锰的固相; (4)从所述分离的液相中除去水以将所述氯酸浓缩在所述分离的液相中; 和(5)将所述分离和浓缩的液相返回到所述反应区,以进一步与氧化锰反应。