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    • 6. 发明申请
    • ELECTROHYDRODYNAMIC (EHD) AIR MOVER CONFIGURATION WITH FLOW PATH EXPANSION AND/OR SPREADING FOR IMPROVED OZONE CATALYSIS
    • 电动气动(EHD)空气动力学配置与流路膨胀和/或扩展改进的臭氧催化
    • US20130340981A1
    • 2013-12-26
    • US13737464
    • 2013-01-09
    • TESSERA, INC.
    • Nels Jewell-LarsenBong-Sub LeeKenneth HonerGiles Humpston
    • F24F7/007G06F1/20
    • F24F7/007B01D71/04B01D2325/48G06F1/20G06F1/203Y10T29/49002
    • Provision of an expansion region (e.g., a flow path with increasing cross-section downstream of the EHD air mover) can provide operational benefits in EHD air mover-based thermal management systems. In contrast, such a design would generally be disfavored for conventional mechanical air mover-based systems. In some cases, an expansion chamber or volume may be provided between the EHD air mover and heat transfer surfaces. In some cases, expansion of the flow cross-section may be provided (at least in part) within the heat transfer surface volume itself. In some cases, leading surfaces of heat transfer surface (e.g., heat sink fins) may be shaped, disposed or otherwise presented to EHD motivated flow to reduce “laminarity” of the impinging air flow so as to reduce thermal transfer boundary layer effects and/or to divert flow outward in the flow channel so as to more evenly distribute ozone molecules over catalytic sites.
    • 提供扩展区域(例如,EHD空气移动器下游的横截面增加的流路)可以在基于EHD基于空气动力的热管理系统中提供操作益处。 相比之下,这种设计通常对于传统的基于机械空气移动器的系统是不利的。 在一些情况下,可以在EHD鼓风机和传热表面之间设置膨胀室或容积。 在一些情况下,可以在传热表面体积本身内(至少部分地)提供流动横截面的膨胀。 在一些情况下,传热表面(例如,散热鳍片)的前表面可以被成形,设置或以其他方式呈现给EHD动力流,以减少冲击空气流的“层叠”,从而减少热传递边界层效应和/ 或者在流动通道中向外转移流体,以便在催化位点上更均匀地分布臭氧分子。