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1.发明公开MECHANISM FOR MITIGATING HIGH HEAT-FLUX CONDITIONS IN A THERMOSIPHON EVAPORATOR OR CONDENSER 审中-公开机制弱化高热流IN A THERMOSIPHONVERDAMPFER或冷凝器条件的
公开(公告)号:EP3099986A1
公开(公告)日:2016-12-07
申请号:EP15704166.6
申请日:2015-01-28
摘要: The present disclosure relates to systems, devices, and methods that augment a thermosiphon system (10) with a thermally conductive matrix material to increase the surface area to volume ratio for heat conduction at a predetermined region(s) of the thermosiphon system while minimizing capillary forces that are isolated to those region(s). The thermosiphon system has tubing including a condenser region (22), an evaporator region (24), and an adiabatic region (26) (e.g., a region between the condenser and evaporator regions). The tubing can contain a heat transport medium and can provide passive two-phase transport of the heat transport medium between the condenser and evaporator regions according to thermosiphon principles. The system also includes a thermally conductive matrix material contained in the condenser region and/or the evaporator region but not in the adiabatic region, such that the thermally conductive matrix material increases a surface area for heat transfer in the condenser region and/or the evaporator region.
摘要翻译: 本发明涉及系统,装置和方法做了增强热虹吸系统(10)配有一个热传导基体材料以增加表面面积与体积之比为热传导的热虹吸系统的预定区域(S),同时最小化毛细管 力确实被隔离到那些区域(一个或多个)。 热虹吸管系统具有蒸发器区域(24)的冷凝器管道包括区域(22)中,在绝热区域(26)(E. G.,冷凝器和蒸发器区域之间的区域)。 该管可含有传热介质,并可以提供gemäß进行热虹吸原理的冷凝器和蒸发器区域之间的热传送介质的被动双相传输。 因此,该系统包括:包含在所述冷凝器区域和/或所述蒸发器区域而不是在绝热区域中的热传导基体材料,谋求DASS死热传导基体材料增加了在冷凝器区域和/或所述蒸发器的传热的表面积 区域。
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2.发明授权
公开(公告)号:EP3099986B1
公开(公告)日:2019-11-13
申请号:EP15704166.6
申请日:2015-01-28
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