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    • 3. 发明授权
    • Method and apparatus for controlling fluid flow using movable flow diverter assembly
    • 使用可移动分流器组件控制流体流动的方法和装置
    • US08622136B2
    • 2014-01-07
    • US13441985
    • 2012-04-09
    • Jason D. DykstraMichael L. FrippOrlando DeJesus
    • Jason D. DykstraMichael L. FrippOrlando DeJesus
    • E21B43/00
    • E21B34/08E21B43/12
    • Apparatus and methods for controlling the flow of fluid, such as formation fluid, through an oilfield tubular positioned in a wellbore extending through a subterranean formation. Fluid flow is autonomously controlled in response to change in a fluid flow characteristic, such as density or viscosity. A fluid diverter is movable between an open and closed position in response to fluid density change and operable to restrict fluid flow through a valve assembly inlet. The diverter can be pivotable, rotatable or otherwise movable in response to the fluid density change. The diverter is operable to control a fluid flow ratio through two valve inlets. The fluid flow ratio is used to operate a valve member to restrict fluid flow through the valve.
    • 用于控制诸如地层流体的流体流过位于穿过地下地层的井眼中的油田管的装置和方法。 流体流动是根据流体流动特性(如密度或粘度)的变化而自主控制的。 流体转向器可以响应于流体密度变化而在打开和关闭位置之间移动并且可操作以限制流过阀组件入口的流体。 转向器可以响应于流体密度变化而可枢转,可旋转或以其它方式移动。 分流器可操作以通过两个阀入口控制流体流量比。 流体流量比用于操作阀构件以限制流过阀的流体流动。
    • 4. 发明授权
    • Managing treatment of subterranean zones
    • 管理地下区域的处理
    • US08602100B2
    • 2013-12-10
    • US13161605
    • 2011-06-16
    • Jason D. DykstraMichael Linley Fripp
    • Jason D. DykstraMichael Linley Fripp
    • E21B43/24G06G7/57
    • E21B43/24
    • A downhole heated fluid generation system includes: a plurality of subsystems, including an air subsystem having an air compressor or an air flow control valve, a fuel subsystem having a fuel compressor or a fuel flow control valve, a treatment fluid subsystem having a fluid pump; a combustor coupled to at least one of the plurality of subsystems to provide a heated fluid into at least one of a wellbore or a subterranean zone; and a controller operable to: receiving an input indicative of a desired flow rate of the heated fluid; receiving an input indicative of a desired quality of the heated fluid; determining a virtual flow rate of the heated fluid based, at least in part, on the input indicative of the desired flow rate; and controlling the plurality of subsystems with the virtual flow rate of the heated fluid.
    • 井下加热流体产生系统包括:多个子系统,包括具有空气压缩机或空气流量控制阀的空气子系统,具有燃料压缩机或燃料流量控制阀的燃料子系统,具有流体泵 ; 燃烧器,其耦合到所述多个子系统中的至少一个子系统,以将加热的流体提供到井筒或地下区域中的至少一个中; 以及控制器,其可操作以:接收指示所述加热流体的期望流量的输入; 接收指示加热流体的期望质量的输入; 至少部分地基于指示期望流量的输入来确定加热流体的虚拟流速; 以及以加热流体的虚拟流量来控制多个子系统。
    • 5. 发明授权
    • Exit assembly with a fluid director for inducing and impeding rotational flow of a fluid
    • 具有用于引导和阻止流体的旋转流动的流体导向器的出口组件
    • US08555975B2
    • 2013-10-15
    • US12974212
    • 2010-12-21
    • Jason D. DykstraMichael L. Fripp
    • Jason D. DykstraMichael L. Fripp
    • E21B43/12F15C1/16
    • E21B43/12E21B34/08Y10T137/2093Y10T137/2115
    • According to an embodiment, an exit assembly comprises: a first fluid inlet; a first fluid outlet; and at least one fluid director, wherein the fluid enters the exit assembly in one direction, in another direction, or combinations thereof, and wherein the at least one fluid director induces flow of the fluid rotationally about the assembly when the fluid enters in the one direction and impedes flow of the fluid rotationally about the assembly when the fluid enters in the another direction. In another embodiment, the exit assembly includes two or more fluid inlets. According to another embodiment, a flow rate restrictor comprises: a fluid switch; and the exit assembly. According to another embodiment, the flow rate restrictor is for use in a subterranean formation.
    • 根据实施例,出口组件包括:第一流体入口; 第一流体出口; 以及至少一个流体导向器,其中所述流体沿另一方向或其组合在一个方向上进入所述出口组件,并且其中当所述流体进入所述流体导向器时,所述至少一个流体导向器在所述流体周围旋转地引导所述流体的流动 方向并且当流体沿另一方向进入时阻止流体围绕组件旋转流动。 在另一个实施例中,出口组件包括两个或更多个流体入口。 根据另一个实施例,一种流量限制器包括:流体开关; 和出口组件。 根据另一个实施例,流量限制器用于地下地层。
    • 6. 发明授权
    • Series configured variable flow restrictors for use in a subterranean well
    • 用于地下井的系列配置的可变流量限制器
    • US08430130B2
    • 2013-04-30
    • US12879846
    • 2010-09-10
    • Jason D. Dykstra
    • Jason D. Dykstra
    • F15C1/16E21B43/12
    • G01F1/32E21B43/12F15D1/0015F15D1/02G01F1/3227Y10T137/2093Y10T137/2098Y10T137/2104
    • A variable flow resistance system can include a vortex device, with resistance to flow of a fluid composition through the vortex device being dependent on a rotation of the fluid composition at an inlet to the vortex device. Another system can include a second vortex device which receives a fluid composition from an outlet of a first vortex device, a resistance to flow of the fluid composition through the second vortex device being dependent on a rotation of the fluid composition at the outlet. Another system can include a first vortex device which causes increased rotation of a fluid composition at an outlet thereof in response to an increase the fluid composition velocity, and a second vortex device which receives the fluid composition from the outlet, a flow resistance through the second vortex device being dependent on the rotation of the fluid composition at the outlet.
    • 可变流动阻力系统可以包括涡流装置,其具有通过涡流装置的流体组合物的流动阻力,其取决于流体组合物在涡流装置的入口处的旋转。 另一系统可以包括从第一涡流装置的出口接收流体组合物的第二涡流装置,流体组合物通过第二涡流装置的流动阻力取决于流体组合物在出口处的旋转。 另一系统可以包括第一涡流装置,其响应于流体组成速度的增加而引起流体组合物在其出口处的旋转增加;以及第二涡流装置,其从所述出口接收流体组合物,通过第二涡流装置的流动阻力 涡流装置取决于出口处的流体组合物的旋转。
    • 7. 发明申请
    • Managing Treatment of Subterranean Zones
    • 管理地下治理
    • US20120323378A1
    • 2012-12-20
    • US13161605
    • 2011-06-16
    • Jason D. DykstraMichael Linley Fripp
    • Jason D. DykstraMichael Linley Fripp
    • G05D7/06
    • E21B43/24
    • A downhole heated fluid generation system includes: a plurality of subsystems, including an air subsystem having an air compressor or an air flow control valve, a fuel subsystem having a fuel compressor or a fuel flow control valve, a treatment fluid subsystem having a fluid pump; a combustor coupled to at least one of the plurality of subsystems to provide a heated fluid into at least one of a wellbore or a subterranean zone; and a controller operable to: receiving an input indicative of a desired flow rate of the heated fluid; receiving an input indicative of a desired quality of the heated fluid; determining a virtual flow rate of the heated fluid based, at least in part, on the input indicative of the desired flow rate; and controlling the plurality of subsystems with the virtual flow rate of the heated fluid.
    • 井下加热流体产生系统包括:多个子系统,包括具有空气压缩机或空气流量控制阀的空气子系统,具有燃料压缩机或燃料流量控制阀的燃料子系统,具有流体泵 ; 燃烧器,其耦合到所述多个子系统中的至少一个子系统,以将加热的流体提供到井筒或地下区域中的至少一个中; 以及控制器,其可操作以:接收指示所述加热流体的期望流量的输入; 接收指示加热流体的期望质量的输入; 至少部分地基于指示期望流量的输入来确定加热流体的虚拟流速; 以及以加热流体的虚拟流量来控制多个子系统。