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    • 2. 发明授权
    • Fluid handling system
    • 流体处理系统
    • US4396435A
    • 1983-08-02
    • US349341
    • 1982-02-16
    • Jon K. WestArthur J. CatottiSaverio F. Pensabene
    • Jon K. WestArthur J. CatottiSaverio F. Pensabene
    • B08B3/04H01M4/04
    • H01M4/04B08B3/04
    • A fluid handling system for circulating a selected fluid medium from a selected tank through one of a plurality of wash tanks for a predetermined period of time, draining the selected wash tank and thereby returning the fluid to the selected tank, and then filling the selected wash tank from a different tank and continuing the sequence for each of the different tanks. After a wash by medium from each tank, the object being washed is removed, and another is inserted. The sequential washes are repeated. This operation continues until the contents of a predetermined one of the tanks has degraded by a predetermined increase in impurity concentration, and for thereafter initiating a cascade whereby the tank having fluid of highest impurity concentration is drained, and the contents of each other tank is transferred to an adjacent tank, and completing the sequence by filling the predetermined tank with relatively pure fluid. The cascading sequence is effected with minimal impact on the washing sequences. Each of the fluid transfers from tank to wash tank and back is effected on a timed basis without significant mixing notwithstanding the fact that the particular medium employed prevents the use of a level sensor to identify when a wash tank has been pumped dry.
    • 一种流体处理系统,用于使所选择的流体介质从选定的罐通过多个洗涤槽中的一个预定时间段,排出所选择的洗涤槽,从而将流体返回到所选择的罐,然后填充所选择的洗涤 来自不同坦克的坦克,并为每个不同的坦克继续顺序。 在每个罐中用介质洗涤后,清洗被清洗物体,另一个被插入。 顺序洗涤重复。 该操作继续进行,直到预定的一个罐的内容物已经降低了杂质浓度的预定增加,并且此后开始级联,由此排出具有最高杂质浓度的流体的罐,并且彼此的容器的内容物被转移 通过用相对纯的流体填充预定的罐来完成顺序。 级联序列对洗涤序列的影响最小。 从罐到洗涤槽和背部的每个流体转移都是以定时为基础进行的,而没有显着的混合,尽管所用的特定介质阻止了使用液位传感器来识别洗涤槽何时被泵送干燥。
    • 4. 发明授权
    • Sintered negative plate
    • 烧结负极板
    • US4139423A
    • 1979-02-13
    • US894398
    • 1978-04-07
    • Saverio F. PensabeneArthur J. Catotti
    • Saverio F. PensabeneArthur J. Catotti
    • H01M4/28C25D9/06C25D9/08
    • H01M4/28
    • A process for manufacturing electrodes for nickel-cadmium alkaline storage cells consisting essentially of the steps of forming a porous nickel plaque, immersing the plaque in a slightly acidic-cadmium nitrate solution, removing the plaque from the solution and heating the plaque in air until dry, immersing the dried plaque in an alkali hydroxide solution, removing the plaque from the hydroxide solution and rinsing the plaque with water, reheating the plaque in air until substantially dry, repeating the foregoing treatments until the desired electrochemical loading in the plaque pores is attained, heating the plaque with the desired electrochemical pore loading to a temperature of between about 200.degree. C and 300.degree. C until substantially all of the Cd (OH).sub.2 in the plaque is converted to CdO and nitrate impurities in the plaque are converted to nitrogen oxide gases and volatilized, immersing the plaque with the converted CdO in a second alkali hydroxide solution, cathodizing and then anodizing the plaque in the second solution, removing the cathodized and anodized plaque from the second solution, rinsing the plaque with water and heating the rinsed plaque until the plaque is substantially dry.
    • 一种用于制造镍镉碱性储存电池的电极的方法,其基本上包括形成多孔镍斑块的步骤,将该噬菌斑浸入微酸性硝酸镉溶液中,从溶液中除去斑块,并将空气中的斑块加热至干燥 将干燥的斑块浸入碱性氢氧化物溶液中,从氢氧化物溶液中除去斑块并用水冲洗斑块,将空气中的斑块再加热至基本干燥,重复上述处理直至获得在斑块孔中所需的电化学负载, 将所需电化学孔加载的斑块加热到约200℃至300℃之间的温度,直到斑块中基本上所有的Cd(OH)2转化为CdO,并将斑块中的硝酸盐杂质转化为氮氧化物 气体挥发,将转化后的CdO浸渍在第二碱性氢氧化物溶液中,然后阴极化 使第二溶液中的斑块变色,从第二溶液中除去阴极和阳极氧化的斑块,用水冲洗斑块并加热漂洗的斑块,直到斑块基本上干燥。
    • 7. 发明授权
    • Sintered negative plate
    • 烧结负极板
    • US4166010A
    • 1979-08-28
    • US970316
    • 1978-12-18
    • Saverio F. PensabeneArthur J. Catotti
    • Saverio F. PensabeneArthur J. Catotti
    • H01M4/28C25D9/06C25D9/08
    • H01M4/28
    • A process for manufacturing electrodes for nickel-cadmium alkaline storage cells consisting essentially of the steps of forming a porous nickel plaque, immersing the plaque in a slightly acidic-cadmium nitrate solution, removing the plaque from the solution and heating the plaque in air until dry, immersing the dried plaque in an alkali hydroxide solution, removing the plaque from the hydroxide solution and rinsing the plaque with water, reheating the plaque in air until substantially dry, repeating the foregoing treatments until the desired electrochemical loading in the plaque pores is attained, heating the plaque with the desired electrochemical pore loading to a temperature of between about 200.degree. C. and 300.degree. C. until substantially all of the Cd(OH).sub.2 in the plaque is converted to CdO and nitrate impurities in the plaque are converted to nitrogen oxide gases and volatized, immersing the plaque with the converted CdO in a second alkali hydroxide solution, cathodizing the plaque in the second solution until about 20-40% of the CdO therein is converted to Cd, removing the cathodized plaque from the second solution, rinsing the plaque with water and heating the rinsed plaque until the plaque is substantially dry.
    • 一种用于制造镍镉碱性储存电池的电极的方法,其基本上包括形成多孔镍斑块的步骤,将该噬菌斑浸入微酸性硝酸镉溶液中,从溶液中除去斑块,并将空气中的斑块加热至干燥 将干燥的斑块浸入碱性氢氧化物溶液中,从氢氧化物溶液中除去斑块并用水冲洗斑块,将空气中的斑块再加热至基本干燥,重复上述处理直至获得在斑块孔中所需的电化学负载, 将具有所需电化学孔载荷的斑块加热到约200℃至300℃之间的温度,直到斑块中基本上所有的Cd(OH)2转化为CdO,并将斑块中的硝酸盐杂质转化为 氮氧化物气体并挥发,将转化的CdO浸渍在第二碱性氢氧化物溶液中,将噬菌斑i 在第二溶液中,直到其中的约20-40%的CdO转化为Cd,从第二溶液中除去阴极化斑块,用水冲洗斑块并加热漂洗的斑块直到斑块基本上干燥。