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    • 3. 发明申请
    • A DEVICE FOR DIRECTING THE FLOW A FLUID USING A PRESSURE SWITCH
    • 用于指示使用压力开关的流体流动的装置
    • WO2012074678A3
    • 2012-08-16
    • PCT/US2011059631
    • 2011-11-07
    • HALLIBURTON ENERGY SERV INCDYKSTRA JASON DFRIPP MICHAEL L
    • DYKSTRA JASON DFRIPP MICHAEL L
    • F15D1/02F15B21/04
    • E21B43/20E21B34/08F15D1/02Y10T137/2115Y10T137/2267
    • A device for directing the flow of a fluid comprises: a pressure pocket; a first fluid passageway; a pressure source; and a pressure switch, wherein the first fluid passageway operationally connects at least the pressure pocket and the pressure source, and wherein the pressure switch is positioned adjacent to the pressure source. According to an embodiment, depending on at least one of the properties of the fluid, the fluid that flows into the pressure pocket changes. In one embodiment, the change is the fluid increasingly flows into the pressure pocket. In another embodiment, the change is the fluid decreasingly flows into the pressure pocket. According to another embodiment, a flow rate regulator comprises: the device for directing the flow of a fluid; a second fluid passageway; a third fluid passageway; and a fourth fluid passageway.
    • 用于引导流体流动的装置包括:压力袋; 第一流体通道; 压力源 以及压力开关,其中所述第一流体通道至少可操作地连接所述压力袋和所述压力源,并且其中所述压力开关邻近所述压力源定位。 根据实施例,根据流体的特性中的至少一个,流入压力槽的流体变化。 在一个实施例中,变化是流体越来越多地流入压力袋。 在另一个实施例中,改变是流体减少地流入压力袋。 根据另一实施例,流量调节器包括:用于引导流体流动的装置; 第二流体通道; 第三流体通道; 和第四流体通道。
    • 5. 发明申请
    • A DEVICE FOR DIRECTING THE FLOW OF A FLUID USING A CENTRIFUGAL SWITCH
    • 用于引导使用离心开关的流体流动的装置
    • WO2012151036A3
    • 2013-01-03
    • PCT/US2012033534
    • 2012-04-13
    • HALLIBURTON ENERGY SERV INCFRIPP MICHAEL LDYKSTRA JASON D
    • FRIPP MICHAEL LDYKSTRA JASON D
    • E21B43/12E21B34/08
    • F15D1/0015Y10T137/2087Y10T137/2093Y10T137/2098Y10T137/2104Y10T137/2109Y10T137/2229Y10T137/8593Y10T137/87265
    • According to an embodiment, a device for directing the flow of a fluid comprises: a fluid chamber; a first outlet; a second outlet; a first outlet fluid passageway, wherein the first outlet fluid passageway is operatively connected to the first outlet; and a second outlet fluid passageway, wherein the second outlet fluid passageway is operatively connected to the second outlet; wherein the fluid rotationally flows about the inside of the chamber, and wherein the fluid flowing through the first outlet fluid passageway conjoins with the fluid flowing through the second outlet fluid passageway at a point downstream of the first and second outlet. According to another embodiment, a device for directing the flow of a fluid comprises: a sensor; a first outlet connected to the sensor; a second outlet connected to the sensor; a first outlet fluid passageway; and a second outlet fluid passageway; wherein as the total number of phases of the fluid increases, the sensor directs at least a first phase of the fluid into the first outlet fluid passageway and directs at least a second phase of the fluid into the second outlet fluid passageway, and wherein the fluid flowing through the first outlet fluid passageway conjoins with the fluid flowing through the second outlet fluid passageway at a point downstream of the first and second outlet.
    • 根据实施例,用于引导流体流动的装置包括:流体室; 第一个出口 第二个出口 第一出口流体通道,其中第一出口流体通道可操作地连接到第一出口; 和第二出口流体通道,其中第二出口流体通道可操作地连接到第二出口; 其中所述流体围绕所述室的内部旋转流动,并且其中流过所述第一出口流体通道的流体与在所述第一和第二出口下游的点处流过所述第二出口流体通道的流体相结合。 根据另一个实施例,用于引导流体流动的装置包括:传感器; 连接到传感器的第一出口; 连接到传感器的第二出口; 第一出口流体通道; 和第二出口流体通道; 其中当所述流体的总相数增加时,所述传感器将所述流体的至少第一相引导到所述第一出口流体通道中并将所述流体的至少第二相引导到所述第二出口流体通道中,并且其中所述流体 流过第一出口流体通道与在第一和第二出口下游的点处流过第二出口流体通道的流体结合。
    • 7. 发明申请
    • SELECTIVELY VARIABLE FLOW RESTRICTOR FOR USE IN A SUBTERRANEAN WELL
    • 选择性差的流量限制器,用于一个地下室
    • WO2012141880A3
    • 2012-12-27
    • PCT/US2012030641
    • 2012-03-27
    • HALLIBURTON ENERGY SERV INCFRIPP MICHAEL LDYKSTRA JASON D
    • FRIPP MICHAEL LDYKSTRA JASON D
    • E21B21/08E21B21/10
    • E21B43/12E21B34/08E21B47/18Y10T137/2098Y10T137/2109Y10T137/2202Y10T137/2218
    • A variable flow resistance system for use with a subterranean well can include a flow chamber through which a fluid composition flows, the chamber having at least two inlets, and a flow resistance which varies depending on proportions of the fluid composition which flow into the chamber via the respective inlet flow paths, and an actuator which varies the proportions. The actuator may deflect the fluid composition toward one of the inlet flow paths. A method of variably controlling flow resistance in a well can include changing an orientation of a deflector relative to a passage through which a fluid composition flows, thereby influencing the fluid composition to flow toward one of multiple inlet flow paths of a flow chamber, the chamber having a flow resistance which varies depending on proportions of the fluid composition which flow into the chamber via the respective inlet flow paths.
    • 与地下井一起使用的可变流阻系统可以包括流动室,流体组合物流过的流动室,该室具有至少两个入口,以及流动阻力,其根据流入室中的流体组成的比例而变化 相应的入口流动路径和改变比例的致动器。 致动器可以将流体组合物偏向一个入口流动路径。 可变地控制井中的流动阻力的方法可以包括改变偏转器相对于流体组合物流过的通道的取向,从而影响流体组成流向流动室的多个入口流动路径之一,腔室 具有根据通过相应入口流动路径流入腔室的流体组成的比例而变化的流动阻力。
    • 9. 发明申请
    • METHOD AND APPARATUS FOR CONTROLLING FLUID FLOW IN AN AUTONOMOUS VALVE USING A STICKY SWITCH
    • 用自动开关阀控制流体流动的方法和装置
    • WO2012138681A2
    • 2012-10-11
    • PCT/US2012032044
    • 2012-04-04
    • HALLIBURTON ENERGY SERV INCFRIPP MICHAEL LDYKSTRA JASON D
    • FRIPP MICHAEL LDYKSTRA JASON D
    • E21B34/14E21B34/16
    • E21B43/12E21B43/14
    • Apparatus and methods are described for autonomously controlling fluid flow in a tubular in a wellbore. A fluid is flowed through an inlet passageway into a biasing mechanism. A fluid flow distribution is established across the biasing mechanism. The fluid flow distribution is altered in response to a change in the fluid characteristic over time. In response, fluid flow through a downstream sticky switch assembly is altered, thereby altering fluid flow patterns in a downstream vortex assembly. The method "selects" based on a fluid characteristic, such as viscosity, density, velocity, flow rate, etc. The biasing mechanism can take various forms such as a widening passageway, contour elements along the biasing mechanism, or a curved section of the biasing mechanism passageway. The biasing mechanism can include hollows formed in the passageway wall, obstructions extending from the passageway wall, fluid diodes, Tesla fluid diodes, a chicane, or abrupt changes in passageway cross-section.
    • 描述了用于自主控制井眼中的管中的流体流动的装置和方法。 流体通过入口通道流入偏压机构。 跨越偏置机构建立流体流动分布。 响应于流体特性随时间的变化而改变流体流动分布。 作为响应,通过下游粘性开关组件的流体流动被改变,从而改变下游涡流组件中的流体流动模式。 该方法基于诸如粘度,密度,速度,流量等的流体特性来“选择”。偏置机构可以采取各种形式,例如加宽通道,沿着偏压机构的轮廓元件或者弯曲部分 偏置机构通道。 偏置机构可以包括形成在通道壁中的中空部,从通道壁延伸的障碍物,流体二极管,特斯拉流体二极管,通道或通道横截面的突然变化。