会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 5. 发明授权
    • Reversible flow electrohydrodynamic fluid accelerator
    • 可逆流动电动液加速器
    • US08411407B2
    • 2013-04-02
    • US12615909
    • 2009-11-10
    • Nels Jewell-LarsenKenneth A. HonerMatt SchwiebertHongyu RanPiyush SavaliaYan Zhang
    • Nels Jewell-LarsenKenneth A. HonerMatt SchwiebertHongyu RanPiyush SavaliaYan Zhang
    • H01J27/00
    • H02N11/006F04B19/006F28F2250/08G06F1/203
    • Reversible flow may be provided in certain EHD device configurations that selectively energize corona discharge electrodes arranged to motivate flows in generally opposing directions. In some embodiments, a first set of one or more corona discharge electrodes is positioned, relative to a first array of collector electrode surfaces, to when energized, motivate flow in a first direction, while second set of one or more corona discharge electrodes is positioned, relative to a second array of collector electrode surfaces, to when energized, motivate flow in a second direction that opposes the first. In some embodiments, the first and second arrays of collector electrode surfaces are opposing surfaces of individual collector electrodes. In some embodiments, the first and second arrays of collector electrode surfaces are opposing surfaces of respective collector electrodes.
    • 可以在某些EHD器件配置中提供可逆流动,其选择性地激励布置成在大致相反的方向上激励流动的电晕放电电极。 在一些实施例中,相对于集电极表面的第一阵列,第一组一个或多个电晕放电电极被定位成当被激励时,在第一方向上激励流动,同时定位第二组一个或多个电晕放电电极 相对于集电极表面的第二阵列,当被激励时,在与第一方向相反的第二方向上激励流动。 在一些实施例中,集电极表面的第一和第二阵列是各个集电极的相对表面。 在一些实施例中,集电极表面的第一和第二阵列是各个集电极的相对表面。
    • 8. 发明授权
    • Electrohydrodynamic fluid accelerator with heat transfer surfaces operable as collector electrode
    • 具有作为集电极的热传递表面的电动液流体加速器
    • US08411435B2
    • 2013-04-02
    • US12615900
    • 2009-11-10
    • Nels Jewell-LarsenKenneth A. HonerMatt SchwiebertHongyu RanPiyush SavaliaYan Zhang
    • Nels Jewell-LarsenKenneth A. HonerMatt SchwiebertHongyu RanPiyush SavaliaYan Zhang
    • F28D15/00H05K7/20
    • H02N11/006F04B19/006F28F2250/08G06F1/203
    • In thermal management systems that employ EHD devices to motivate flow of air between ventilated boundary portions of an enclosure, it can be desirable to have some heat transfer surfaces participate in electrohydrodynamic acceleration of fluid flow while providing additional heat transfer surfaces that may not. In some embodiments, both collector electrodes and additional heat transfer surfaces are thermally coupled into a heat transfer path. Collector electrodes then contribute both to flow of cooling air and to heat transfer to the air flow so motivated. The collector electrodes and additional heat transfer surfaces may be parts of a unitary, or thermally coupled, structure that is introduced into a flow path at multiple positions therealong. In some embodiments, the collector electrodes and additional heat transfer surfaces may be proximate each other along the flow path. In some embodiments, the collector electrodes and additional heat transfer surfaces may be separate structures.
    • 在使用EHD装置来激励外壳通气边界部分之间的空气流动的热管理系统中,可能希望具有一些传热表面参与流体流动的电流动力学加速,同时提供可能不会的额外的传热表面。 在一些实施例中,收集器电极和附加传热表面都热耦合到传热路径中。 然后,收集器电极对冷却空气的流动进行贡献,并将热量传递给如此积极的气流。 集电极和附加传热表面可以是整体或热耦合的结构的部分,其被引入到沿着多个位置的流动路径中。 在一些实施例中,集电极和附加传热表面可以沿着流动路径彼此靠近。 在一些实施例中,集电极和附加传热表面可以是分离的结构。
    • 10. 发明申请
    • EHD DEVICE IN-SITU AIRFLOW
    • EHD装置现场气流
    • US20120314334A1
    • 2012-12-13
    • US13485559
    • 2012-05-31
    • Nels Jewell-LarsenKenneth A. Honer
    • Nels Jewell-LarsenKenneth A. Honer
    • H01T23/00
    • G06F1/203
    • An electrohydrodynamic (EHD) air mover is positionable within the enclosure to, when energized, motivate air flow through the enclosure along a flow path between the inlet and outlet ventilation boundaries. Ductwork within the enclosure has cross-sections substantially matched to a cross-section of the EHD air mover. A fan curve-type, pressure-air flow characteristic measured for the EHD air mover in open air substantially overstates mechanical impedance of the EHD air mover to air flow along the flow path between the inlet and outlet ventilation boundaries in that, when the EHD air mover is operably positioned within the enclosure appurtenant to the ductwork, no more than about 50% of the mechanical impedance of the EHD air mover indicated by the measured fan curve-type, pressure-air flow characteristic actually contributes to total mechanical impedance to air flow through the enclosure along the flow path between the inlet and outlet ventilation boundaries.
    • 电动水动力(EHD)空气推动器可定位在外壳内,当通电时,沿着入口和出口通风边界之间的流动路径激发通过外壳的空气流。 外壳内的管道工程横截面基本上与EHD鼓风机横截面相匹配。 在空气中测量的EHD空气推进器的风扇曲线式,压力 - 气流特性基本上夸大了EHD空气推进器的机械阻抗与入口和出口通风边界之间的流动路径的空气流动,因为当EHD空气 移动器可操作地定位在与管道系统相连的外壳中,不超过所测量的风扇曲线式所指示的EHD气动机构的机械阻抗的约50%,压力 - 气流特性实际上有助于对气流的总机械阻抗 通过外壳沿着入口和出口通风边界之间的流动路径。