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    • 1. 发明授权
    • Cooling system for downhole tools
    • 井下工具冷却系统
    • US06336408B1
    • 2002-01-08
    • US09240955
    • 1999-01-29
    • Robert A. ParrottHaoshi SongKuo-Chiang Chen
    • Robert A. ParrottHaoshi SongKuo-Chiang Chen
    • F42B300
    • E21B47/011E21B36/001Y10S102/704Y10S102/705
    • Apparatus and method for cooling a component inside a tool includes a container and a plurality of heat sinks positioned in the container. The components are positioned in the container with the heat sinks for maintaining a reduced temperature inside the container. Further, an insulating layer and a reflective layer surround the heat sinks and components to reduce heat transfer. Alternatively, the container can have a hollow wall that encloses the space in which a heat sink material (such as an eutectic material) is disposed. The components to be protected are located in the container. The eutectic material includes a composition having tin and zinc. The insulating layer includes a container that stores a vacuum layer, such as a dewar flask.
    • 用于冷却工具内的部件的装置和方法包括容器和位于容器中的多个散热器。 这些部件定位在具有散热器的容器中,以保持容器内的降低的温度。 此外,绝缘层和反射层围绕散热器和部件以减少热传递。 或者,容器可以具有封闭其中设置有散热材料(例如共晶材料)的空间的中空壁。 待保护的部件位于容器中。 共晶材料包括具有锡和锌的组合物。 绝缘层包括容纳真空层的容器,例如杜瓦瓶。
    • 2. 发明授权
    • Zone isolation tools
    • 区隔离工具
    • US6102120A
    • 2000-08-15
    • US98280
    • 1998-06-16
    • Kuo-Chiang ChenHaoshi SongJack F. Lands, Jr.Wallace E. VoreckDinesh R. Patel
    • Kuo-Chiang ChenHaoshi SongJack F. Lands, Jr.Wallace E. VoreckDinesh R. Patel
    • E21B29/10E21B33/127E21B33/13E21B36/00E21B43/10
    • E21B43/105E21B29/10E21B33/1275E21B33/13E21B36/008
    • An apparatus and method for sealing an inner wall of a portion of a casing positioned in a well employs an inflatable sleeve having an outer surface and a conformable composite sleeve of curable composition extending around the outer surface of the inflatable sleeve. The inflatable sleeve is inflated to compress the composite sleeve against the surface of the inner casing wall. A local, activatable energy source, positioned downhole to deliver heat to the composite sleeve, is activated to cure the composite sleeve to form a hardened sleeve. The hardened sleeve presses against the inner wall of the casing portion to create a fluid seal. The embodiments shown have a number of preferred features. The local energy source includes an exothermic heat energy source for generating heat energy to cure the composite sleeve. The composite sleeve includes a mixture of resin and a curing agent, and the exothermic heat source includes thermite. The thermite includes a composition having a metal oxide and a reductant. A starter mix is positioned adjacent the exothermic heat energy source, and the starter mix is ignited to start an exothermic reaction in the heat energy source. A conformable layer extends around the composite sleeve, with the layer serving to form a seal between the composite sleeve and the inner wall of the casing portion.
    • 用于密封定位在井中的壳体的一部分的内壁的装置和方法采用具有可膨胀套筒的可膨胀套筒,所述可充气套管具有围绕可充气套筒的外表面延伸的可固化组合物的外表面和适形复合套筒。 充气套筒被充气以将复合套筒压靠在内壳壁的表面上。 激活能够定位在井下以将热传递到复合套筒的局部可活化能量源,以固化复合套筒以形成硬化套筒。 硬化的套筒压靠壳体部分的内壁以产生流体密封。 所示的实施例具有多个优选特征。 局部能量源包括用于产生热能以固化复合套筒的放热热能源。 复合套筒包括树脂和固化剂的混合物,放热热源包括热铝。 所述热铝包括具有金属氧化物和还原剂的组合物。 起动器混合物位于放热热能源附近,并且起动器混合物被点燃以在热能源中开始放热反应。 适形层围绕复合套筒延伸,该层用于在复合套筒和壳体部分的内壁之间形成密封。
    • 6. 发明授权
    • Co-located antennas
    • 同轴天线
    • US07286091B2
    • 2007-10-23
    • US11256226
    • 2005-10-21
    • Kuo-Chiang ChenThomas D. Barber
    • Kuo-Chiang ChenThomas D. Barber
    • H01Q1/04G01V3/28
    • G01V13/00G01V3/30H01Q7/00H01Q7/08H01Q21/24
    • Techniques for implementing antenna configurations with substantially co-located axes are disclosed. A method for constructing co-located antennas includes winding a first antenna on a support, the first antenna having a first magnetic dipole in a first orientation; and winding a second antenna on the support through a first set of openings in the support, the second antenna having a second magnetic dipole in a second orientation, wherein the first orientation is different from the second orientation, and wherein a center of the first magnetic dipole substantially co-locates with a center of the second magnetic dipole.
    • 公开了用于实现具有基本上同位置的轴的天线配置的技术。 用于构造同位置天线的方法包括:将第一天线缠绕在支撑件上,所述第一天线具有第一方位的第一磁偶极子; 并且通过所述支撑件中的第一组开口将第二天线缠绕在所述支撑件上,所述第二天线具有第二取向的第二磁偶极子,其中所述第一取向不同于所述第二取向,并且其中所述第一磁体的中心 偶极子与第二磁偶极子的中心基本上共定位。