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    • 1. 发明申请
    • Method and system with apparatus for acceleration of activity decrease and radioactive material deactivation
    • 具有加速活性降低和放射性物质失活的装置的方法和系统
    • US20040238366A1
    • 2004-12-02
    • US10453681
    • 2003-06-02
    • Kinderevich Anatoly VladimirovichKicha Leonid Ivanovich
    • G21F009/00C25B001/00C25C001/22C25C003/34
    • G21F9/04G21F9/28
    • Radioactive material can be processed by an apparatus that includes at least a cylindrical outer shell electrode, an inner electrode, and a plurality of prism-shaped ferromagnetic elements positioned between the outer and inner electrodes. The prism-shaped ferromagnetic elements are positioned around the inner circumference of the metal cylinder. The inner electrode component is located within the metal cylinder and is configured to cover the inwardly-pointing portions of the prism-shaped ferromagnetic elements. Radioactive material in a container is placed into the apparatus, and an AC voltage excitation signal is applied to the electrodes of the apparatus during treatment of the material. The frequency of the excitation signal is selected according to the frequency of structurization or the frequency of destructurization of the ferromagnetic material. The process can be monitored and controlled with the use of alpha, beta, and gamma radiation intensity measuring instruments.
    • 放射性材料可以通过至少包括圆柱形外壳电极,内电极和位于外电极和内电极之间的多个棱柱形铁磁元件的装置进行处理。 棱柱形铁磁元件围绕金属圆筒的内圆周定位。 内部电极部件位于金属圆筒内,并且构造成覆盖棱柱形铁磁元件的向内指向部分。 将容器中的放射性物质放置在装置中,并且在处理材料期间将AC电压激励信号施加到装置的电极。 激励信号的频率根据结构化频率或铁磁材料的变结构频率来选择。 可以使用α,β和γ辐射强度测量仪器监测和控制该过程。
    • 9. 发明申请
    • Electrochemical method for producing ferrate(VI) compounds
    • 生产高铁酸盐(VI)化合物的电化学方法
    • US20030159942A1
    • 2003-08-28
    • US10084029
    • 2002-02-27
    • Zoran MinevskiJason MaxeyCarl NelsonDylan Taylor
    • C25B001/00
    • C25B1/00C25B1/28
    • A method for the electrochemical production of ferrate salts in an aqueous electrolyte solution comprising one or more hydroxide components. Dramatically increased yields of ferrate salts are obtained from using a mixture of sodium hydroxide and potassium hydroxide. Preferably, both sodium hydroxide and potassium hydroxide are present in concentrations greater than 5 molar, most preferably at least 10 molar, i.e., 10 M NaOH and 10 M KOH. The anode is preferably a sacrificial anode made out of an iron-containing material to supply the iron necessary for the ferrate production reaction. The aqueous hydroxide solution, even a mixed potassium hydroxide (KOH) and sodium hydroxide (NaOH) solution, may be recycled and reused in the electrochemical cell, preferably after the extraction of the ferrate salt
    • 一种在包含一种或多种氢氧化物组分的电解质水溶液中电化学生产高铁酸盐的方法。 使用氢氧化钠和氢氧化钾的混合物可以获得高铁酸盐的显着增加的产率。 优选地,氢氧化钠和氢氧化钾都以大于5摩尔,最优选至少10摩尔,即10M NaOH和10M KOH的浓度存在。 阳极优选是由含铁材料制成的牺牲阳极,以供应铁酸盐生产反应所需的铁。 氢氧化钠水溶液,甚至混合的氢氧化钾(KOH)和氢氧化钠(NaOH)溶液可以在电化学电池中循环使用,优选在提取高铁酸盐