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    • 1. 发明授权
    • Stimulation method
    • 刺激方法
    • US09458687B2
    • 2016-10-04
    • US14362674
    • 2012-12-20
    • WELLTEC A/S
    • Jørgen Hallundbæk
    • E21B43/116E21B28/00E21B43/00E21B43/16E21B43/25E21B43/28E21B47/10E21B47/12
    • E21B28/00E21B43/003E21B43/116E21B43/16E21B43/25E21B43/281E21B47/10E21B47/122
    • A method for improving fuel collection from an underground deposit comprising stimulating fuel-containing sections of an underground formation, the sections being located between a first well and a second well, the first well being either an injection well or a production well, and the second well being a production well. The method includes arranging a mechanical wave generation device downhole in the first well and arranging at least a first mechanical wave sensor in the production well, injecting a pressurized fluid into the formation from at least the first well, activating the mechanical wave generation device downhole to project mechanical waves into and through the fuel-containing sections, receiving and processing the waves sent from the first well, generating a tomography of the underground environment between the first well and the second well, and collecting fuel in the second well via inflow valves arranged in the second well.
    • 一种用于改善地下沉积物的燃料收集的方法,包括刺激地下地层的燃料含有区段,所述区段位于第一井和第二井之间,第一井是注入井或生产井,第二井是注入井或生产井, 好的生产井。 该方法包括在第一井井下布置机械波发生装置,并在生产井中布置至少第一机械波传感器,从至少第一井将加压流体喷射到地层中,将井下的机械波发生装置启动到 将机械波投入并穿过含燃料部分,接收和处理从第一井发送的波浪,产生第一井和第二井之间的地下环境的层析成像,以及通过排列的流入阀收集第二井中的燃料 在第二口
    • 2. 发明授权
    • In situ retorting of hydrocarbons and a selected metal
    • 碳氢化合物和选定金属的原位蒸馏
    • US09388678B2
    • 2016-07-12
    • US14160651
    • 2014-01-22
    • Joseph A. AffholterGilman A. Hill
    • Joseph A. AffholterGilman A. Hill
    • E21B43/24E21B43/28
    • E21B43/24E21B43/281
    • A method of producing hydrocarbons and a selected metal in situ from a fixed-bed hydrocarbon formation disposed below a ground surface and having a higher permeability zone substantially parallel to, and between a top lower permeability zone and a bottom lower permeability zone. The steps include providing at least one injection well and first and second production wells in the higher permeability zone, injecting a heated thermal-energy carrier fluid (TECF) into the injection well, circulating the carrier fluid through the zone and creating a substantially horizontal situ heating element (ISHE) between the injection well and the production wells for mobilizing the hydrocarbons and the selected metal.
    • 一种从设置在地表下方并具有基本上平行于顶部低渗透性区域和底部低渗透性区域之间以及之间的较高渗透性区域的固定床烃地层原位生产烃和选定金属的方法。 这些步骤包括在较高渗透性区域中提供至少一个注入井和第一和第二生产井,将加热的热能载体流体(TECF)注入注入井,使载体流体循环通过区域并创建基本上水平的位置 注入井和生产井之间的加热元件(ISHE)用于动员烃和所选择的金属。
    • 5. 发明申请
    • Method and System for Solution Mining
    • 解决方案挖掘的方法和系统
    • US20110080035A1
    • 2011-04-07
    • US12959377
    • 2010-12-03
    • William M. Bishop
    • William M. Bishop
    • E21B43/28F16L9/19
    • F16L9/19E21B43/281
    • A relatively warm mineral deposit is solution mined by injecting fluid through a well drilled into the deposit and dissolving the mineral to form a production brine. Warm production brine is cooled at the surface using a heat exchanger as a crystallizer to precipitate the mineral in the exchanger and form a slurry. Crystals of the mineral in the slurry are recovered in a separation plant leaving a relatively cool, dilute or depleted brine, which is conveyed through the heat exchanger for cooling the production brine and then injected into the mineral deposit to dissolve more mineral thereby providing a continuous process. A pipe-in-pipe heat exchanger is preferably used and in a manner so that the heat exchanger also serves as a primary means for conveying the production fluid and/or slurry from the well to the separation plant. This method extracts and recovers the desired mineral(s), recovers much of the heat in the production brine, accelerates the solution mining process since the injection fluid has been warmed, reduces salting in the production string, is relatively inexpensive to install and maintain, and does not require a source of energy for cooling the production brine such as electricity for a refrigeration system.
    • 相对温暖的矿床是通过将钻井液注入沉积物中并将矿物溶解以形成生产盐水而开采的溶液。 使用热交换器作为结晶器,在表面上冷却生产的盐水,以在交换器中沉淀矿物并形成浆料。 将浆料中的矿物质晶体回收在分离装置中,留下相对冷却的稀释或贫化的盐水,其通过热交换器输送以冷却生产盐水,然后注入矿物沉积物中以溶解更多的矿物质,从而提供连续的 处理。 优选地使用管中管热交换器,并且使得热交换器还用作将生产流体和/或浆料从井输送到分离设备的主要装置。 该方法提取和回收所需的矿物质,回收生产盐水中的大部分热量,加速溶液开采过程,因为注射液已被加热,减少了生产线中的盐析,安装和维护相对便宜, 并且不需要用于冷却生产盐水的能量源,例如用于制冷系统的电力。
    • 6. 发明授权
    • Method and system for solution mining
    • 解决方案挖掘的方法和系统
    • US07857396B2
    • 2010-12-28
    • US12316398
    • 2008-12-13
    • William M. Bishop
    • William M. Bishop
    • E21C41/00
    • F16L9/19E21B43/281
    • A relatively warm mineral deposit is solution mined by injecting fluid through a well drilled into the deposit and dissolving the mineral to form a production brine. Warm production brine is cooled at the surface using a heat exchanger as a crystallizer to precipitate the mineral in the exchanger and form a slurry. Crystals of the mineral in the slurry are recovered in a separation plant leaving a relatively cool, dilute or depleted brine, which is conveyed through the heat exchanger for cooling the production brine and then injected into the mineral deposit to dissolve more mineral thereby providing a continuous process. A pipe-in-pipe heat exchanger is preferably used and in a manner so that the heat exchanger also serves as a primary means for conveying the production fluid and/or slurry from the well to the separation plant. This method extracts and recovers the desired mineral(s), recovers much of the heat in the production brine, accelerates the solution mining process since the injection fluid has been warmed, reduces salting in the production string, is relatively inexpensive to install and maintain, and does not require a source of energy for cooling the production brine such as electricity for a refrigeration system.
    • 相对温暖的矿床是通过将钻井液注入沉积物中并将矿物溶解以形成生产盐水而开采的溶液。 使用热交换器作为结晶器,在表面上冷却生产的盐水,以在交换器中沉淀矿物并形成浆料。 将浆料中的矿物质晶体回收在分离装置中,留下相对冷却的稀释或贫化的盐水,其通过热交换器输送以冷却生产盐水,然后注入矿物沉积物中以溶解更多的矿物质,从而提供连续的 处理。 优选地使用管中管热交换器,并且使得热交换器还用作将生产流体和/或浆料从井输送到分离设备的主要装置。 该方法提取和回收所需的矿物质,回收生产盐水中的大部分热量,加速溶液开采过程,因为注射液已被加热,减少了生产线中的盐析,安装和维护相对便宜, 并且不需要用于冷却生产盐水的能量源,例如用于制冷系统的电力。