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    • 4. 发明授权
    • Systems and methods for in situ resistive heating of organic matter in a subterranean formation
    • 地层中有机物原位电阻加热的系统和方法
    • US09394772B2
    • 2016-07-19
    • US14489113
    • 2014-09-17
    • William P. MeurerChen FangFederico G. GalloNazish HodaMichael W. Lin
    • William P. MeurerChen FangFederico G. GalloNazish HodaMichael W. Lin
    • E21B43/24E21B36/04
    • E21B43/2401E21B36/04
    • A method for pyrolyzing organic matter in a subterranean formation includes powering a first generation in situ resistive heating element within an aggregate electrically conductive zone at least partially in a first region of the subterranean formation by transmitting an electrical current between a first electrode pair in electrical contact with the first generation in situ resistive heating element to pyrolyze a second region of the subterranean formation, adjacent the first region, to expand the aggregate electrically conductive zone into the second region, wherein the expanding creates a second generation in situ resistive heating element within the second region and powering the second generation in situ resistive heating element by transmitting an electrical current between a second electrode pair in electrical contact with the second generation in situ resistive heating element to generate heat with the second generation in situ resistive heating element within the second region.
    • 用于在地下地层中热解有机物质的方法包括通过在电接触中的第一电极对之间传输电流来在地下地层的第一区域中至少部分地在集束导电区内为第一代原位电阻加热元件供电 利用第一代原位电阻加热元件来热解邻近第一区域的地层的第二区域,以将聚集导电区域扩展到第二区域,其中扩展在第二区域内产生第二代原位电阻加热元件 通过在与第二代原位电阻加热元件电接触的第二电极对之间传输电流来向第二代原位电阻加热元件供电,以在第二区域内的第二代原位电阻加热元件产生热量 n。
    • 5. 发明申请
    • Systems and Methods for Improved Subterranean Granular Resistive Heaters
    • 改进的地下颗粒电阻加热器的系统和方法
    • US20150175875A1
    • 2015-06-25
    • US14518966
    • 2014-10-20
    • Federico G. GalloChen FangNazish HodaMichael W. LinWilliam P. Meurer
    • Federico G. GalloChen FangNazish HodaMichael W. LinWilliam P. Meurer
    • C09K8/592E21B43/24
    • C09K8/592E21B43/2401
    • Systems and methods for improved subterranean granular resistive heaters. The methods may include forming a composite granular resistive heating material. These methods may include determining an expected operating range for an environmental parameter for the composite granular resistive heating material within a subterranean formation, selecting a first material, selecting a second material, and/or generating the composite granular resistive heating material from the first material and the second material. The methods may include forming a granular resistive heater. The methods may include determining the expected operating range and/or locating the composite granular resistive heating material within the subterranean formation. The systems may include a composite granular resistive heating material that includes a first material and a second material and that defines a composite functional relationship between an electrical property of the composite granular resistive heating material and the environmental parameter. The composite functional relationship includes a mathematical extremum.
    • 改进的地下粒状电阻加热器的系统和方法。 所述方法可以包括形成复合粒状电阻加热材料。 这些方法可以包括确定地层内的复合粒状电阻加热材料的环境参数的预期操作范围,从第一材料中选择第一材料,选择第二材料和/或生成复合粒状电阻加热材料,以及 第二种材料。 所述方法可以包括形成粒状电阻加热器。 所述方法可以包括确定预期操作范围和/或在地下地层内定位复合粒状电阻加热材料。 该系统可以包括复合粒状电阻加热材料,其包括第一材料和第二材料,并且限定复合粒状电阻加热材料的电性能与环境参数之间的复合功能关系。 复合函数关系包括数学极值。