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公开(公告)号:US20110051549A1
公开(公告)日:2011-03-03
申请号:US12843834
申请日:2010-07-26
申请人: Kristian Debus , Thomas Gielda , Serguei Charamko , Balaji Maniam
发明人: Kristian Debus , Thomas Gielda , Serguei Charamko , Balaji Maniam
IPC分类号: B01F13/00
CPC分类号: F15D1/02
摘要: A central insert causes maximum fluid velocity to shift away from an external tube wall reducing friction losses at the tube wall. Centrifugal forces pull fluid away from a central insert wall minimizing friction at the insert wall. The insert may be used in the context of nozzles, flow tubes, vortex tubes, and other fluid pathways. In a nozzle, grooves may be added to the nozzle wall. By introducing these grooves at the exit or end of a nozzle, nucleation may be improved and cavitation may be triggered prior to a fluid entering an expansion tube. The nucleation ring may also be placed at the beginning of a nozzle such that cavitation starts within the nozzle.
摘要翻译: 中央插入件使最大流体速度从外管壁移开,减少管壁处的摩擦损失。 离心力将流体从中心插入物壁拉出,从而最小化插入壁处的摩擦力。 插入物可以在喷嘴,流量管,涡流管和其它流体通路的上下文中使用。 在喷嘴中,可以向喷嘴壁添加凹槽。 通过在喷嘴的出口或端部引入这些凹槽,可以改善成核,并且在流体进入膨胀管之前可以触发空化。 成核环也可以放置在喷嘴的开始处,使得在喷嘴内开始空化。
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公开(公告)号:US20120118538A1
公开(公告)日:2012-05-17
申请号:US12945799
申请日:2010-11-12
申请人: Thomas Gielda , Kristian Debus , Serguei Charamko
发明人: Thomas Gielda , Kristian Debus , Serguei Charamko
IPC分类号: F28D15/00
CPC分类号: F25B1/06 , F28D11/04 , F28D2021/0028 , F28F2250/08
摘要: A method of cooling that accelerates a compressible working fluid without the use of a pump. The method accelerates the fluid to a velocity equal to or greater than the speed of sound in the compressible fluid selected to be used in the method. The fluid is accelerated to a supersonic velocity in a rotating evaporator tube. A phase change of the fluid due to a pressure differential may be utilized to transfer heat from an element to be cooled.
摘要翻译: 一种冷却方法,可以在不使用泵的情况下加速可压缩的工作流体。 该方法将流体加速至等于或大于选择用于该方法的可压缩流体中的声速。 流体在旋转的蒸发器管中被加速到超音速。 可以利用由于压力差导致的流体的相变来从要冷却的元件传递热量。
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公开(公告)号:US20120000631A1
公开(公告)日:2012-01-05
申请号:US13039121
申请日:2011-03-02
申请人: Serguei Charamko , Kristian Debus , Tom Gielda
发明人: Serguei Charamko , Kristian Debus , Tom Gielda
CPC分类号: F25B1/06 , F28D11/04 , F28D2021/0028 , F28F2250/08 , F28F2265/14
摘要: Disclosed herein is a cooling system that utilizes a supersonic cooling cycle. The cooling system includes accelerating a compressible working fluid, and may not require the use of a conventional mechanical pump. The cooling system accelerates the fluid to a velocity equal to or greater than the speed of sound in the compressible fluid selected to be used in the system. A phase change of the fluid due at least in part to a pressure differential cools a working fluid that may be utilized to transfer heat from a heat intensive system.
摘要翻译: 本文公开了利用超音速冷却循环的冷却系统。 冷却系统包括加速可压缩的工作流体,并且可以不需要使用传统的机械泵。 冷却系统将流体加速至等于或大于选择用于系统中的可压缩流体中的声速。 至少部分地由压力差导致的流体的相变使得可用于从热密集系统传递热量的工作流体冷却。
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公开(公告)号:US20120260673A1
公开(公告)日:2012-10-18
申请号:US13087062
申请日:2011-04-14
申请人: Serguei Charamko , Kristian Debus , Tom Gielda
发明人: Serguei Charamko , Kristian Debus , Tom Gielda
IPC分类号: F25B9/00
CPC分类号: F25B1/00
摘要: Cooling in the supersonic region of a compressible fluid is disclosed. The fluid is accelerated by a reciprocating piston to a velocity equal to or greater than the speed of sound in the fluid in an evaporator. No conventional mechanical pump is required to accelerate the fluid. A phase change of the fluid due to a pressure differential may be utilized to transfer heat from an element to be cooled.
摘要翻译: 公开了可压缩流体的超音速区域中的冷却。 流体通过往复式活塞加速至等于或大于蒸发器中流体中的声速的速度。 不需要常规的机械泵来加速流体。 可以利用由于压力差导致的流体的相变来从要冷却的元件传递热量。
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公开(公告)号:US08820114B2
公开(公告)日:2014-09-02
申请号:US13039121
申请日:2011-03-02
申请人: Serguei Charamko , Kristian Debus , Tom Gielda
发明人: Serguei Charamko , Kristian Debus , Tom Gielda
CPC分类号: F25B1/06 , F28D11/04 , F28D2021/0028 , F28F2250/08 , F28F2265/14
摘要: Disclosed herein is a cooling system that utilizes a supersonic cooling cycle. The cooling system includes accelerating a compressible working fluid, and may not require the use of a conventional mechanical pump. The cooling system accelerates the fluid to a velocity equal to or greater than the speed of sound in the compressible fluid selected to be used in the system. A phase change of the fluid due at least in part to a pressure differential cools a working fluid that may be utilized to transfer heat from a heat intensive system.
摘要翻译: 本文公开了利用超音速冷却循环的冷却系统。 冷却系统包括加速可压缩的工作流体,并且可以不需要使用传统的机械泵。 冷却系统将流体加速至等于或大于选择用于系统中的可压缩流体中的声速。 至少部分地由压力差导致的流体的相变使得可用于从热密集系统传递热量的工作流体冷却。
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公开(公告)号:US20120204593A1
公开(公告)日:2012-08-16
申请号:US13028083
申请日:2011-02-15
申请人: Tom Gielda , Kristian Debus , Serguei Charamko
发明人: Tom Gielda , Kristian Debus , Serguei Charamko
IPC分类号: F25D17/00
CPC分类号: F25B23/00
摘要: A supersonic cooling system operates by pumping liquid without the need of a condenser. The compression system utilizes a compression wave in the generation of the cooling effect. An inlet of the system may be pulsed to reduce energy required of a pump. The evaporator of compression system operates in the critical flow regime where the pressure one or more evaporator tubes will remain almost constant and then ‘jump’ or ‘shock up’ to the ambient pressure.
摘要翻译: 超音速冷却系统通过泵送液体而不需要冷凝器来操作。 压缩系统在产生冷却效果时利用压缩波。 系统的入口可以被脉冲以减少泵所需的能量。 压缩系统的蒸发器在临界流动状态下工作,其中压力一个或多个蒸发器管将保持几乎恒定,然后“环绕”或“缓冲”到环境压力。
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公开(公告)号:US20110048062A1
公开(公告)日:2011-03-03
申请号:US12880940
申请日:2010-09-13
申请人: Thomas Gielda , Kristian Debus , Jay Harman
发明人: Thomas Gielda , Kristian Debus , Jay Harman
IPC分类号: F25B21/00
CPC分类号: F25B1/06 , F25B27/002 , F25D11/003 , F25D2331/803 , F25D2331/805 , F25D2400/12 , F28D1/053 , F28F1/26
摘要: A portable cooling unit operates by pumping liquid. Because the portable cooling unit pumps liquid, the compression system that generates the cooling power does not require the use of a condenser. The compression system utilizes a compression wave. An evaporator of the cooling unit operates in the critical flow regime in which the pressure in an evaporator tube will remain almost constant and then ‘jump’ or ‘shock up’ to an increased pressure.
摘要翻译: 便携式冷却单元通过泵送液体进行操作。 因为便携式冷却单元泵送液体,所以产生冷却功率的压缩系统不需要使用冷凝器。 压缩系统利用压缩波。 冷却单元的蒸发器在临界流动状态下工作,其中蒸发器管中的压力将保持几乎恒定,然后“跳动”或“缓冲”到增加的压力。
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公开(公告)号:US20110048048A1
公开(公告)日:2011-03-03
申请号:US12902060
申请日:2010-10-11
申请人: Thomas Gielda , Kristian Debus , Jay Harman
发明人: Thomas Gielda , Kristian Debus , Jay Harman
IPC分类号: F25D31/00
CPC分类号: F25B1/06 , A41D13/0053 , F28D1/053 , F28D2021/0071 , F28F1/26
摘要: A personal cooling system operates by pumping liquid through a garment. Because the personal cooling system pumps liquid, the compression system that generates the cooling power does not require the use of a condenser. The compression system utilizes a compression wave. An evaporator of the cooling system operates in the critical flow regime in which the pressure in an evaporator tube will remain almost constant and then ‘jump’ or ‘shock up’ to an increased pressure.
摘要翻译: 个人冷却系统通过将液体泵送穿过服装进行操作。 因为个人冷却系统泵送液体,所以产生冷却功率的压缩系统不需要使用冷凝器。 压缩系统利用压缩波。 冷却系统的蒸发器在临界流动状态下工作,其中蒸发器管中的压力将保持几乎恒定,然后“跳动”或“减震”至增加的压力。
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公开(公告)号:US08505322B2
公开(公告)日:2013-08-13
申请号:US12902056
申请日:2010-10-11
申请人: Thomas Gielda , Kristian Debus , Jay Harman , Don Tomasi
发明人: Thomas Gielda , Kristian Debus , Jay Harman , Don Tomasi
CPC分类号: F25B1/06 , F28F3/12 , H01M10/613 , H01M10/6554 , H01M10/6568
摘要: A battery cooling system operates by pumping liquid through a cooling fluid circulation path. Because the battery cooling system pumps liquid, the compression system that generates the cooling power does not require the use of a condenser. The compression system utilizes a compression wave. An evaporator of the cooling system operates in the critical flow regime in which the pressure in an evaporator tube will remain almost constant and then ‘jump’ or ‘shock up’ to an increased pressure.
摘要翻译: 电池冷却系统通过泵送液体通过冷却流体循环路径来操作。 由于电池冷却系统泵送液体,所以产生冷却功率的压缩系统不需要使用冷凝器。 压缩系统利用压缩波。 冷却系统的蒸发器在临界流动状态下工作,其中蒸发器管中的压力将保持几乎恒定,然后“跳动”或“减震”至增加的压力。
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公开(公告)号:US20110048066A1
公开(公告)日:2011-03-03
申请号:US12902056
申请日:2010-10-11
申请人: Thomas Gielda , Kristian Debus , Jay Harman , Don Tomasi
发明人: Thomas Gielda , Kristian Debus , Jay Harman , Don Tomasi
IPC分类号: F25B39/02
CPC分类号: F25B1/06 , F28F3/12 , H01M10/613 , H01M10/6554 , H01M10/6568
摘要: A battery cooling system operates by pumping liquid through a cooling fluid circulation path. Because the battery cooling system pumps liquid, the compression system that generates the cooling power does not require the use of a condenser. The compression system utilizes a compression wave. An evaporator of the cooling system operates in the critical flow regime in which the pressure in an evaporator tube will remain almost constant and then ‘jump’ or ‘shock up’ to an increased pressure.
摘要翻译: 电池冷却系统通过泵送液体通过冷却流体循环路径来操作。 由于电池冷却系统泵送液体,所以产生冷却功率的压缩系统不需要使用冷凝器。 压缩系统利用压缩波。 冷却系统的蒸发器在临界流动状态下工作,其中蒸发器管中的压力将保持几乎恒定,然后“跳动”或“减震”至增加的压力。
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