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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
Applicant: Thomas Gielda , Kristian Debus , Jay Harman
Inventor: Thomas Gielda , Kristian Debus , Jay Harman
IPC: F25B21/00
CPC classification number: F25B1/06 , F25B27/002 , F25D11/003 , F25D2331/803 , F25D2331/805 , F25D2400/12 , F28D1/053 , F28F1/26
Abstract: 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.
Abstract translation: 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
Applicant: Thomas Gielda , Kristian Debus , Jay Harman
Inventor: Thomas Gielda , Kristian Debus , Jay Harman
IPC: F25D31/00
CPC classification number: F25B1/06 , A41D13/0053 , F28D1/053 , F28D2021/0071 , F28F1/26
Abstract: 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.
Abstract translation: 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
Applicant: Thomas Gielda , Kristian Debus , Jay Harman , Don Tomasi
Inventor: Thomas Gielda , Kristian Debus , Jay Harman , Don Tomasi
CPC classification number: F25B1/06 , F28F3/12 , H01M10/613 , H01M10/6554 , H01M10/6568
Abstract: 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.
Abstract translation: 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
Applicant: Thomas Gielda , Kristian Debus , Jay Harman , Don Tomasi
Inventor: Thomas Gielda , Kristian Debus , Jay Harman , Don Tomasi
IPC: F25B39/02
CPC classification number: F25B1/06 , F28F3/12 , H01M10/613 , H01M10/6554 , H01M10/6568
Abstract: 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.
Abstract translation: 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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