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    BINARY FLUID EJECTOR AND METHOD OF USE
    3.
    发明公开
    BINARY FLUID EJECTOR AND METHOD OF USE 审中-公开
    BINARY液体喷射装置和使用方法

    公开(公告)号:EP2324304A2

    公开(公告)日:2011-05-25

    申请号:EP09807386.9

    申请日:2009-08-14

    申请人: May-Ruben Technologies, Inc.

    发明人: MAY, Wayne, A.

    IPC分类号: F25B9/08 F25B19/04 F25B41/06

    CPC分类号: F25B41/00 F04F5/16 F04F5/48 F25B2341/0011 F25B2500/01

    摘要: A binary-fluid oscillating-jet pressure exchange ejector and binary-fluid ejector refrigeration cycle as a method of use are disclosed. The ejector includes a high aspect ratio jet nozzle geometry, spatial domain jet modulation, serpentine jet stream morphology and distinct fluid pathway geometry capable of equilibrating or otherwise processing dissimilar fluids. As a method of use, the binary fluid ejector provides a means to substantially optimize the binary fluid set selected or otherwise formulated for employment in a binary- fluid ejector refrigeration cycle exclusively to favor refrigeration thermal performance (COP), without compromising the performance of the ejector itself.

    HIGH IMPEDANCE SYSTEM FOR GENERATING ELECTRIC FIELDS AND METHOD OF USE
    4.
    发明公开
    HIGH IMPEDANCE SYSTEM FOR GENERATING ELECTRIC FIELDS AND METHOD OF USE 有权
    高阻于产生电场和使用方法体系

    公开(公告)号:EP1952133A1

    公开(公告)日:2008-08-06

    申请号:EP06827315.0

    申请日:2006-10-31

    申请人: May-Ruben Technologies, Inc.

    发明人: MAY, Wayne, A. RUBEN, Peter

    IPC分类号: G01N27/02

    CPC分类号: A61N1/042 A61N1/0424 A61N1/327 H05H1/2406 H05H2001/2456

    摘要: Disclosed is a system and method for generating time variant and invariant electric fields (E-fields) for various applications. Generating the E-field utilizes high impedance dielectric materials having a collection of three imperative material properties: high permittivity (ϵ), high volume resistivity (ρ) and high maximum allowable E-field stress (φ) and physical geometries that take advantage of the manner in which E-fields are divided or distributed in series capacitance networks. The generated E-field can act upon a subject material, including a gas, liquid or solid, wherein the material is stationary or in motion. The method allows an E-field of given intensity to be set up in the subject material with a significantly lower applied voltage Φa, or conversely, a significantly higher E-field intensity with a given applied voltage Φa. The method forestalls electric conduction current through the subject material, thus significantly reducing electric conduction current, energy consumption, ohmic heating, and preempting electrochemical reactions at the electrode/fluid interfaces. Acoustic energy may also be applied.