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    • 1. 发明授权
    • Method and materials for proppant flow control with telescoping flow conduit technology
    • 用伸缩流道技术支撑剂流量控制的方法和材料
    • US08646523B2
    • 2014-02-11
    • US12814630
    • 2010-06-14
    • Tianping HuangRichard YingQing Xu
    • Tianping HuangRichard YingQing Xu
    • E21B34/10E21B43/26
    • E21B34/063E21B23/04E21B43/267
    • Porous objects, such as porous balls, may be employed within telescoping devices to control proppant flowback through a completed well during production. The telescoping devices may connect a reservoir face to a production liner without perforating. Acid-soluble plugs initially disposed within the telescoping devices may provide enough resistance to enable the telescoping devices to extend out from the production liner under hydraulic pressure. The plugs may then be dissolved in an acidic solution, which may also be used as the hydraulic extension fluid. After the plugs are substantially removed from the telescoping devices, the reservoir may be hydraulically fractured using standard fracturing processes. The porous balls may then be inserted into the telescoping devices to block proppant used in the fracturing process from flowing out of the reservoir with the production fluids.
    • 可以在伸缩装置内使用多孔物体,例如多孔球,以在生产期间控制支撑剂在完井中的回流。 伸缩装置可以将储存器面连接到生产衬里而不穿孔。 初始设置在伸缩装置内的酸溶性塞子可以提供足够的阻力,以使伸缩装置能够在液压下从生产衬里伸出。 然后可以将塞子溶解在酸性溶液中,其也可以用作液压延伸流体。 在插塞基本上从伸缩装置移除之后,可以使用标准压裂方法将储存器水力断裂。 然后可以将多孔球插入伸缩装置中以阻止在压裂过程中使用的支撑剂与生产流体一起流出储存器。
    • 4. 发明申请
    • Method and Materials for Proppant Flow Control With Telescoping Flow Conduit Technology
    • 支架流量控制方法与材料与伸缩流动管道技术
    • US20110220362A1
    • 2011-09-15
    • US12814630
    • 2010-06-14
    • Tianping HuangRichard YingQing Xu
    • Tianping HuangRichard YingQing Xu
    • E21B43/26E21B33/12
    • E21B34/063E21B23/04E21B43/267
    • Porous objects, such as porous balls, may be employed within telescoping devices to control proppant flowback through a completed well during production. The telescoping devices may connect a reservoir face to a production liner without perforating. Acid-soluble plugs initially disposed within the telescoping devices may provide enough resistance to enable the telescoping devices to extend out from the production liner under hydraulic pressure. The plugs may then be dissolved in an acidic solution, which may also be used as the hydraulic extension fluid. After the plugs are substantially removed from the telescoping devices, the reservoir may be hydraulically fractured using standard fracturing processes. The porous balls may then be inserted into the telescoping devices to block proppant used in the fracturing process from flowing out of the reservoir with the production fluids.
    • 可以在伸缩装置内使用多孔物体,例如多孔球,以在生产期间控制支撑剂在完井中的回流。 伸缩装置可以将储存器面连接到生产衬里而不穿孔。 初始设置在伸缩装置内的酸溶性塞子可以提供足够的阻力,以使伸缩装置能够在液压下从生产衬里伸出。 然后可以将塞子溶解在酸性溶液中,其也可以用作液压延伸流体。 在插塞基本上从伸缩装置移除之后,可以使用标准压裂方法将储存器水力断裂。 然后可以将多孔球插入伸缩装置中以阻止在压裂过程中使用的支撑剂与生产流体一起流出储存器。
    • 7. 发明授权
    • Solids suspension with nanoparticle-associated viscoelastic surfactant micellar fluids
    • 具有纳米颗粒相关粘弹性表面活性剂胶束液的固体悬浮液
    • US09556376B2
    • 2017-01-31
    • US12042439
    • 2008-03-05
    • Tianping HuangJames B. Crews
    • Tianping HuangJames B. Crews
    • C09K8/05C09K8/68
    • C09K8/05C09K8/665C09K8/68C09K8/80C09K2208/10C09K2208/30
    • An aqueous, viscoelastic fluid gelled with a viscoelastic surfactant (VES) may suspend solids such as proppants, gravel, drilling debris, waste solids and the like with an effective amount of a nano-sized additive including, but not necessarily limited to alkaline earth metal oxides, alkaline earth metal hydroxides, alkali metal oxides, alkali metal hydroxides, transition metal oxides, transition metal hydroxides, post-transition metal oxides, and post-transition metal hydroxides. The additives may also reduce the amount of VES required to maintain a given viscosity. These viscoelastic surfactant gelled aqueous fluids may be used as treatment fluids for subterranean hydrocarbon formations, such as in hydraulic fracturing, gravel packing and the like. The magnesium oxide, zinc oxide or other nanometer scale-sized additives are at a scale that may provide unique particle charges that use chemisorption, crosslinking and/or other chemistries to associate the micelles and suspend the solids.
    • 用粘弹性表面活性剂(VES)凝胶化的水性粘弹性流体可以用有效量的纳米尺寸添加剂来悬浮诸如支撑剂,砾石,钻屑,废物固体等固体,包括但不限于碱土金属 氧化物,碱土金属氢氧化物,碱金属氧化物,碱金属氢氧化物,过渡金属氧化物,过渡金属氢氧化物,过渡金属氧化物和过渡后金属氢氧化物。 添加剂还可以减少维持给定粘度所需的VES的量。 这些粘弹性表面活性剂胶凝的含水流体可以用作地下烃地层的处理流体,例如在水力压裂,砾石填充等中。 氧化镁,氧化锌或其他纳米级尺寸的添加剂的尺寸可以提供使用化学吸附,交联和/或其它化学物质来缔合胶束并悬浮固体的独特的颗粒电荷。
    • 8. 发明授权
    • Flow control device, method and production adjustment arrangement
    • 流量控制装置,方法和生产调整方案
    • US09334708B2
    • 2016-05-10
    • US13453563
    • 2012-04-23
    • Tianping Huang
    • Tianping Huang
    • E21B34/08E21B43/12E21B41/00
    • E21B34/08E21B41/0085E21B43/12Y02C10/14Y10T137/0324Y10T137/8593
    • A flow control device includes, a body defining at least a portion of a flow passageway, at least one movable member in operable communication with the body, movable between at least a first position that provides a first restriction to flow through the flow passageway and a second position that provides a second restriction to flow through the flow passageway, and a circuit in operable communication with the at least one movable member that is configured to sense conductivity of fluid flowing through the flow passageway and to promote movement of the at least one movable member to move from the first position to the second position in response to a change in conductivity of fluid flowing through the flow passageway.
    • 流量控制装置包括限定流动通道的至少一部分的主体,与主体可操作地连通的至少一个可动构件,可在提供第一限制件流过流动通道的至少第一位置和 提供流过所述流动通道的第二限制的第二位置,以及与所述至少一个可移动构件可操作地连通的电路,所述电路构造成感测流过所述流动通道的流体的导电性并且促进所述至少一个可移动的 构件响应于流过流动通道的流体的导电性的变化而从第一位置移动到第二位置。