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    • 4. 发明授权
    • Method and apparatus for ozone generation and treatment of water
    • 用于臭氧发生和处理水的方法和装置
    • US5478533A
    • 1995-12-26
    • US291949
    • 1994-08-17
    • Ion I. Inculet
    • Ion I. Inculet
    • C01B13/11C02F1/46C02F1/78
    • C02F1/4608C01B13/11C02F1/78C01B2201/12C01B2201/22C01B2201/24C02F2201/782Y10S204/902Y10S422/906Y10S422/907
    • A water treatment apparatus is provided in which the ozone generation and the water treatment may take place simultaneously. The ozone is generated from a continuous supply of air and/or oxygen at the surface of a running water by means of a high voltage electrode placed in the air or in oxygen at some distance above the water surface. The strong electric field between the high voltage electrode and the surface of the electrically grounded water stream generates a multitude of small Taylor cones at the surface of the water. Each Taylor cone goes into corona and in the process it generates the ozone. As the ozone is generated at the water surface, a substantial amount of ozone is immediately dissolved in water and the ozone that diffuses in the air continues to be in contact with the water surface. The undissolved ozone may be percolated through the same water for an additional primary or secondary ozonation.
    • 提供了一种水处理装置,其中臭氧产生和水处理可以同时进行。 臭氧是通过放置在空气中的高压电极或在水面上方一定距离的氧气中,在流水表面上连续供应空气和/或氧气而产生的。 高电压电极和电接地水流表面之间的强电场在水面产生大量小的泰勒锥。 每个泰勒锥进入电晕,并在此过程中产生臭氧。 当臭氧在水面产生时,大量臭氧立即溶解在水中,并且在空气中扩散的臭氧继续与水面接触。 未溶解的臭氧可以通过相同的水渗透以进行额外的初级或次级臭氧化。
    • 6. 发明授权
    • Method and apparatus for separating particulate materials
    • 用于分离颗粒材料的方法和设备
    • US4517078A
    • 1985-05-14
    • US551810
    • 1983-11-15
    • Ion I. InculetAnna K. E. NorbergNicholas M. Hepher
    • Ion I. InculetAnna K. E. NorbergNicholas M. Hepher
    • B03C7/02B03C7/04
    • B03C7/023B03C7/04
    • Particles having different properties (e.g. particulate fly ash and carbon) are separated by driving the particles by means of a vibratory feeder (12) forwards along a horizontal electrode plate (1) above which is mounted a second electrode (2) having at least one plate (4) mounted at an acute angle (.alpha.) to the horizontal. Preferably, two plates (4) each extend sideways from a central block (3) of dielectric material. An alternating electric field is generated between the electrodes (1, 2) by a high voltage AC power source (14). The potential across each plate (4) varies (in particular, decreases) in the lateral direction, the variation being continuous or stepwise. The field lines (16) from each plate (4) curve to the side and impart centrifugal forces to particles charged by friction or conductive induction, which forces separate lighter, more heavily charged particles from the others. The separated particles are collected in bins (13) arranged around the lower electrode (1).
    • 具有不同性质的颗粒(例如颗粒飞灰和碳)通过借助于振动进料器(12)通过驱动颗粒而分离,所述振动进料器沿着水平电极板(1)向前延伸,其上安装有具有至少一个 板(4)以与水平面成锐角(α)安装。 优选地,两个板(4)各自从介电材料的中心块(3)侧向延伸。 通过高压AC电源(14)在电极(1,2)之间产生交变电场。 每个板(4)上的电位在横向上变化(特别是减小),变化是连续的或逐步的。 来自每个板(4)的场线(16)向侧面弯曲,并通过摩擦或导电感应给粒子施加离心力,这迫使分离的较轻的,带电荷更多的颗粒与其它颗粒相比。 将分离的颗粒收集在布置在下电极(1)周围的箱体(13)中。
    • 9. 发明授权
    • Method for soil consolidation
    • 土壤固结方法
    • US4960524A
    • 1990-10-02
    • US182660
    • 1988-04-18
    • Ion I. InculetKwan Y. Lo
    • Ion I. InculetKwan Y. Lo
    • B03C5/00C02F11/12E02D3/11
    • B03C5/005C02F11/12E02D3/11
    • A method and apparatus for separating liquid for material of differing permativity is disclosed. The method involves the application of an AC voltage to a material to create an a non-uniform electric field of the same frequency as the applied AC voltage which decreases in strength the further the radial distance from the point of application to induce flow of the liquid in the material. Collection means are located in the path of induced flow to collect the liquid. The apparatus of the invention consists of a means of generating an AC voltage, a terminal in contact with material and connected to the means of generating the voltage so as to receive the material and impart a non-uniform electric field to the material. Means for collecting the liquid that collects at a region in which the liquid is concentrated is also provided.
    • 公开了用于分离具有不同限度的材料的液体的方法和装置。 该方法涉及向材料施加AC电压以产生与施加的AC电压相同频率的不均匀电场,该AC电压降低强度,进一步从施加点到引导液体流动的径向距离 在材料中。 收集装置位于诱导流动的路径中以收集液体。 本发明的装置包括产生交流电压的装置,与材料接触并连接到产生电压的装置的端子,以便接收材料并给材料施加不均匀的电场。 还提供用于收集在液体浓缩的区域收集的液体的装置。
    • 10. 发明授权
    • Electrostatic isolation apparatus and method
    • 静电隔离装置及方法
    • US4629119A
    • 1986-12-16
    • US574277
    • 1984-01-26
    • Robert T. PlunkettIon I. Inculet
    • Robert T. PlunkettIon I. Inculet
    • B05D1/04B05B5/16B05B5/00
    • B05B5/165B05B5/1616
    • An isolator for electrically isolating an electrostatically charged, electrically conductive coating material supply line from a grounded source of conductive coating material while continuously transferring coating material from the source to the supply line. The isolator includes a receptacle for a charged coating material reservoir and an insulative housing surrounding the charged coating material receptacle. The coating material in the receptacle is fed through an outlet to the supply line for an electrostatic coating device, which is electrostatically charged. Due to the conductive nature of the coating material, the electrostatic potential at the coating device is coupled through the coating material, and the reservoir of coating material in the receptacle is likewise electrostatically charged. The coating material from the grounded coating material source is coupled to a grounded nozzle assembly in a housing which is positioned above the charged coating material receptacle. The grounded coating material nozzle assembly includes a nozzle in a bottom portion thereof, and the coating material in the grounded nozzle assembly is mechanically vibrated to produce a pulsed jet droplet flow of electrostatic coating material from the nozzle into the charged coating material receptacle. A grounded metallic shield is mounted in the housing between the two coating material receptacles to substantially electrically shield the grounded nozzle assembly from electrical potentials below the shield, including the electrical potential of the charged coating material reservoir. The shield is apertured to permit the passage of the pulsed jet droplet flow of coating material.
    • 一种隔离器,用于将静电带电的导电涂层材料供应管线与接地的导电涂层材料源电隔离,同时将涂层材料从源极传输到供应管线。 隔离器包括用于充电的涂料储存器的容器和围绕带电的涂料容器的绝缘壳体。 容器中的涂层材料通过出口被供给到用于静电涂覆装置的供应管线,静电涂覆装置被静电充电。 由于涂层材料的导电性质,涂层装置处的静电电势通过涂层材料耦合,并且容器中的涂料的储存器同样被静电充电。 来自接地涂层材料源的涂层材料被耦合到位于带电涂层材料容器上方的壳体中的接地喷嘴组件。 接地的涂料喷嘴组件包括在其底部的喷嘴,并且接地喷嘴组件中的涂层材料被机械振动以产生静电涂层材料的脉冲喷射液滴从喷嘴进入带电的涂料容器。 接地的金属屏蔽件安装在两个涂料容器之间的壳体中,以基本上电屏蔽接地的喷嘴组件与屏蔽件下方的电势,包括带电涂料储存器的电位。 屏蔽孔是有孔的,以允许涂覆材料的脉冲喷射液滴流通过。