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    • 1. 发明授权
    • Twin-vortex micromixer for enforced mass exchange
    • 双涡旋式微型混合器用于强制质量交换
    • US07794136B2
    • 2010-09-14
    • US11429972
    • 2006-05-09
    • Jing-Tang YangKai-Yang TungWei-Feng FangKer-Jer Huang
    • Jing-Tang YangKai-Yang TungWei-Feng FangKer-Jer Huang
    • B01F5/06
    • B01F13/0059B01F5/061B01F2005/0621B01F2005/0636Y10S366/03
    • The present invention discloses a vortex-modulation based micromixer for enforced mass exchange. The micromixer of the present invention comprises a mixing chamber with grooves on one wall thereof and a special-shape barrier on another wall. As different fluids are injected into the mixing chamber respectively from two inlets of the micromixer, the grooves and barriers of the micromixer of the present invention create the constructive interferences to form the active-like agitation of the fluid. For every groove, the flux passed by can be increased via its high pressure gradient. Understandably, the mixing efficiency of the fluids can be greatly improved within a very short distance. At last, the outlet of the micromixer is located in the downstream of the mixing chamber and further is able to connect with other elements. The present invention is entirely a passive micromixer and no additional energy is required. The present invention can apply to a continuous chemical analysis, particularly to a lab-on-a-chip or a micro total analysis system.
    • 本发明公开了一种用于强制质量交换的基于涡旋调制的微混合器。 本发明的微混合器包括在其一个壁上具有凹槽的混合室和在另一壁上的特殊形状的阻挡层。 由于不同的流体分别从微型混合器的两个入口注入到混合室中,本发明的微混合器的凹槽和屏障产生了建立性的干扰以形成流体的活性样搅拌。 对于每个槽,可以通过其高压梯度来增加通过的通量。 可以理解,在非常短的距离内可以大大提高流体的混合效率。 最后,微混合器的出口位于混合室的下游,并且还能够与其他元件连接。 本发明完全是无源微混合器,并且不需要额外的能量。 本发明可以应用于连续化学分析,特别是对于芯片实验室或微型总分析系统。
    • 2. 发明申请
    • Twin-vortex micromixer for enforced mass exchange
    • 双涡旋式微型混合器用于强制质量交换
    • US20070263485A1
    • 2007-11-15
    • US11429972
    • 2006-05-09
    • Jing-Tang YangKai-Yang TungWei-Feng FangKer-Jer Huang
    • Jing-Tang YangKai-Yang TungWei-Feng FangKer-Jer Huang
    • B01F5/06B81B1/00
    • B01F13/0059B01F5/061B01F2005/0621B01F2005/0636Y10S366/03
    • The present invention discloses a vortex-modulation based micromixer for enforced mass exchange. The micromixer of the present invention comprises a mixing chamber with grooves on one wall thereof and a special-shape barrier on another wall. As different fluids are injected into the mixing chamber respectively from two inlets of the micromixer, the grooves and barriers of the micromixer of the present invention create the constructive interferences to form the active-like agitation of the fluid. For every groove, the flux passed by can be increased via its high pressure gradient. Understandably, the mixing efficiency of the fluids can be greatly improved within a very short distance. At last, the outlet of the micromixer is located in the downstream of the mixing chamber and further is able to connect with other elements. The present invention is entirely a passive micromixer and no additional energy is required. The present invention can apply to a continuous chemical analysis, particularly to a lab-on-a-chip or a micro total analysis system.
    • 本发明公开了一种用于强制质量交换的基于涡旋调制的微混合器。 本发明的微混合器包括在其一个壁上具有凹槽的混合室和在另一壁上的特殊形状的阻挡层。 由于不同的流体分别从微型混合器的两个入口注入到混合室中,本发明的微混合器的凹槽和屏障产生了建立性的干扰以形成流体的活性样搅拌。 对于每个槽,可以通过其高压梯度来增加通过的通量。 可以理解,在非常短的距离内可以大大提高流体的混合效率。 最后,微混合器的出口位于混合室的下游,并且还能够与其他元件连接。 本发明完全是无源微混合器,并且不需要额外的能量。 本发明可以应用于连续化学分析,特别是对于芯片实验室或微型总分析系统。
    • 3. 发明授权
    • Heat dissipation system
    • 散热系统
    • US08842434B2
    • 2014-09-23
    • US13409965
    • 2012-03-01
    • Chien-An ChenKai-Yang Tung
    • Chien-An ChenKai-Yang Tung
    • H05K7/20F28D15/00F25D31/00F28D21/00F28D15/06
    • F25D31/00F28D15/00F28D15/06F28D2021/0028
    • A server rack heat dissipation system for a server including an electronic component comprises a first and a second heat dissipation assembly. The first heat dissipation assembly includes a first heat exchanger and a first pipeline. The first heat exchanger is inside the server rack and in thermal contact with the electronic component. The first pipeline is in thermal contact with the first heat exchanger and has a first coolant. The second heat dissipation assembly includes a second heat exchanger. The second heat exchanger is inside the server rack and in thermal contact with the first pipeline. The second heat exchanger can remove the heat of the electronic component in the first coolant in advance. Accordingly, the time of the first coolant being maintained in a vapor phase can be shortened, so that a power the fluid driving device used for driving the first coolant is reduced.
    • 一种用于包括电子部件的服务器的服务器机架散热系统包括第一和第二散热组件。 第一散热组件包括第一热交换器和第一管道。 第一个热交换器在服务器机架内部,并与电子元件热接触。 第一管道与第一热交换器热接触并具有第一冷却剂。 第二散热组件包括第二热交换器。 第二个热交换器在服务器机架内部,并与第一个管道热接触。 第二热交换器可以预先去除第一冷却剂中的电子部件的热量。 因此,可以缩短保持在蒸气相中的第一冷却剂的时间,从而减少用于驱动第一冷却剂的流体驱动装置的功率。
    • 5. 发明申请
    • HEAT DISSIPATION SYSTEM
    • 散热系统
    • US20130118710A1
    • 2013-05-16
    • US13409965
    • 2012-03-01
    • Chien-An ChenKai-Yang Tung
    • Chien-An ChenKai-Yang Tung
    • F28D15/00F25D31/00
    • F25D31/00F28D15/00F28D15/06F28D2021/0028
    • A server rack heat dissipation system for a server including an electronic component comprises a first and a second heat dissipation assembly. The first heat dissipation assembly includes a first heat exchanger and a first pipeline. The first heat exchanger is inside the server rack and in thermal contact with the electronic component. The first pipeline is in thermal contact with the first heat exchanger and has a first coolant. The second heat dissipation assembly includes a second heat exchanger. The second heat exchanger is inside the server rack and in thermal contact with the first pipeline. The second heat exchanger can remove the heat of the electronic component in the first coolant in advance. Accordingly, the time of the first coolant being maintained in a vapor phase can be shortened, so that a power the fluid driving device used for driving the first coolant is reduced.
    • 一种用于包括电子部件的服务器的服务器机架散热系统包括第一和第二散热组件。 第一散热组件包括第一热交换器和第一管道。 第一个热交换器在服务器机架内部,并与电子元件热接触。 第一管道与第一热交换器热接触并具有第一冷却剂。 第二散热组件包括第二热交换器。 第二个热交换器在服务器机架内部,并与第一个管道热接触。 第二热交换器可以预先去除第一冷却剂中的电子部件的热量。 因此,可以缩短保持在蒸气相中的第一冷却剂的时间,从而减少用于驱动第一冷却剂的流体驱动装置的功率。
    • 6. 发明授权
    • Server cabinet
    • 服务器柜
    • US08437129B2
    • 2013-05-07
    • US13110384
    • 2011-05-18
    • Kai-Yang TungChien-An Chen
    • Kai-Yang TungChien-An Chen
    • H05K7/20
    • H05K7/20772H05K7/20781
    • A server cabinet is provided, which not only utilizes a first cooling fluid to flow through a heat exchanger of the cabinet to lower the temperature of entrances of fan modules without wasting additional energy, but also utilizes a cooling fluid pipe set to send a second cooling fluid to heat exchange apparatuses in a server to lower the temperature of heating elements inside the cabinet. The server cabinet could lower the heat dissipating loading of the heat exchanger of the cabinet and achieve the efficiency of saving energy.
    • 提供了一种服务器机柜,不仅利用第一冷却流体流过机柜的热交换器,以降低风扇模块入口的温度,而不浪费额外的能量,而且还利用冷却流体管道来发送第二冷却 流体到服务器中的热交换装置以降低机柜内的加热元件的温度。 服务器机柜可以降低机柜换热器的散热负荷,达到节能的目的。
    • 8. 发明申请
    • COOLING CIRCULATION SYSTEM OF SERVER
    • 服务器冷却循环系统
    • US20120111533A1
    • 2012-05-10
    • US13158644
    • 2011-06-13
    • Chien-An ChenKai-Yang TungMao-Ching Lin
    • Chien-An ChenKai-Yang TungMao-Ching Lin
    • F28F13/00
    • H05K7/20736
    • A cooling circulation system of a server includes a cabinet assembly, a plurality of first fan modules, a plurality of second fan modules, and two air guide hoods. The first fan modules and the second fan modules are disposed on the cabinet assembly. The first fan modules blow a first airflow towards a first direction, and the second fan modules blow a second airflow towards a second direction. The air guide hoods are respectively installed on two ends of the cabinet assembly. The first airflow and the second airflow join each other through the air guide hoods, so as to form a cooling circulation loop inside the cabinet assembly.
    • 服务器的冷却循环系统包括机柜组件,多个第一风扇模块,多个第二风扇模块和两个空气引导罩。 第一风扇模块和第二风扇模块设置在机柜组件上。 第一风扇模块朝向第一方向吹动第一气流,并且第二风扇模块朝向第二方向吹动第二气流。 导气罩分别安装在机柜总成的两端。 第一气流和第二气流通过空气引导罩相互连接,以在柜组件内部形成冷却循环回路。
    • 10. 发明授权
    • Cooling circulation system of server
    • 服务器冷却循环系统
    • US08526182B2
    • 2013-09-03
    • US13158644
    • 2011-06-13
    • Chien-An ChenKai-Yang TungMao-Ching Lin
    • Chien-An ChenKai-Yang TungMao-Ching Lin
    • H05K7/20
    • H05K7/20736
    • A cooling circulation system of a server includes a cabinet assembly, a plurality of first fan modules, a plurality of second fan modules, and two air guide hoods. The first fan modules and the second fan modules are disposed on the cabinet assembly. The first fan modules blow a first airflow towards a first direction, and the second fan modules blow a second airflow towards a second direction. The air guide hoods are respectively installed on two ends of the cabinet assembly. The first airflow and the second airflow join each other through the air guide hoods, so as to form a cooling circulation loop inside the cabinet assembly.
    • 服务器的冷却循环系统包括机柜组件,多个第一风扇模块,多个第二风扇模块和两个空气引导罩。 第一风扇模块和第二风扇模块设置在机柜组件上。 第一风扇模块朝向第一方向吹动第一气流,并且第二风扇模块朝向第二方向吹动第二气流。 导气罩分别安装在机柜总成的两端。 第一气流和第二气流通过空气引导罩相互连接,以在柜组件内部形成冷却循环回路。