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    • 4. 发明申请
    • Use of Micro-Electro-Mechanical Systems (MEMS) in Well Treatments
    • 微机电系统(MEMS)在井身处理中的应用
    • US20110192592A1
    • 2011-08-11
    • US13031524
    • 2011-02-21
    • Craig W. RODDYRick CovingtonKrishna M. RaviMichael BittarGary FrischBatakrishna MandalPaul RodneyWilliam Tapie
    • Craig W. RODDYRick CovingtonKrishna M. RaviMichael BittarGary FrischBatakrishna MandalPaul RodneyWilliam Tapie
    • E21B47/00
    • E21B33/13E21B43/25E21B47/0005E21B47/01E21B47/10E21B47/122
    • A method of servicing a wellbore, comprising placing into a wellbore a first wellbore composition comprising a plurality of Micro-Electro-Mechanical System (MEMS) sensors having a first identifier, and determining positions in the wellbore of the MEMS sensors having the first identifiers. A method of servicing a wellbore, comprising placing into a wellbore a first wellbore composition comprising a plurality of Micro-Electro-Mechanical System (MEMS) sensors having a first identifier, placing into the wellbore a second wellbore composition comprising a plurality of MEMS sensors having first identifier, and determining positions in the wellbore of the MEMS sensors having the first identifier, wherein the MEMS sensors of the first wellbore composition are added to a portion of the first wellbore composition added to the wellbore prior to a remainder of the first wellbore composition, and the MEMS sensors of the second wellbore composition are added to a portion of the second wellbore composition added to the wellbore prior to a remainder of the second wellbore composition.
    • 一种维修井筒的方法,包括将井眼中的第一井眼组合物放置在第一井筒组合物中,所述第一井眼组合物包括具有第一标识符的多个微机电系统(MEMS)传感器,以及确定具有第一标识符的MEMS传感器的井筒中的位置。 一种维修井眼的方法,包括将井眼放置在第一井眼组合物中,所述第一井筒组合物包括具有第一标识符的多个微电机 - 机械系统(MEMS)传感器,所述微机电系统(MEMS)传感器具有第一标识符,将包括多个MEMS传感器的第二井眼组合 第一标识符,以及确定具有第一标识符的MEMS传感器的井眼中的位置,其中将第一井眼组合物的MEMS传感器添加到在第一井筒组合物的剩余部分之前添加到井筒中的第一井筒组合物的一部分 ,并且第二井眼组合物的MEMS传感器在第二井筒组合物的剩余部分之前加入到加入到井筒中的第二井筒组合物的一部分中。
    • 6. 发明授权
    • Use of micro-electro-mechanical systems (MEMS) in well treatments
    • 微机电系统(MEMS)在井处理中的应用
    • US08291975B2
    • 2012-10-23
    • US13031524
    • 2011-02-21
    • Craig W. RoddyRick L. CovingtonKrishna M. RaviMichael BittarGary FrischBatakrishna MandalPaul RodneyWilliam Tapie
    • Craig W. RoddyRick L. CovingtonKrishna M. RaviMichael BittarGary FrischBatakrishna MandalPaul RodneyWilliam Tapie
    • E21B33/13E21B47/10
    • E21B33/13E21B43/25E21B47/0005E21B47/01E21B47/10E21B47/122
    • A method of servicing a wellbore, comprising placing into a wellbore a first wellbore composition comprising a plurality of Micro-Electro-Mechanical System (MEMS) sensors having a first identifier, and determining positions in the wellbore of the MEMS sensors having the first identifiers. A method of servicing a wellbore, comprising placing into a wellbore a first wellbore composition comprising a plurality of Micro-Electro-Mechanical System (MEMS) sensors having a first identifier, placing into the wellbore a second wellbore composition comprising a plurality of MEMS sensors having first identifier, and determining positions in the wellbore of the MEMS sensors having the first identifier, wherein the MEMS sensors of the first wellbore composition are added to a portion of the first wellbore composition added to the wellbore prior to a remainder of the first wellbore composition, and the MEMS sensors of the second wellbore composition are added to a portion of the second wellbore composition added to the wellbore prior to a remainder of the second wellbore composition.
    • 一种维修井筒的方法,包括将井眼中的第一井眼组合物放置在第一井筒组合物中,所述第一井眼组合物包括具有第一标识符的多个微机电系统(MEMS)传感器,以及确定具有第一标识符的MEMS传感器的井筒中的位置。 一种维修井眼的方法,包括将井眼放置在第一井眼组合物中,所述第一井筒组合物包括具有第一标识符的多个微电机 - 机械系统(MEMS)传感器,所述微机电系统(MEMS)传感器具有第一标识符,将包括多个MEMS传感器的第二井眼组合 第一标识符,以及确定具有第一标识符的MEMS传感器的井眼中的位置,其中将第一井眼组合物的MEMS传感器添加到在第一井筒组合物的剩余部分之前添加到井筒中的第一井筒组合物的一部分 ,并且第二井眼组合物的MEMS传感器在第二井筒组合物的剩余部分之前加入到加入到井筒中的第二井筒组合物的一部分中。
    • 10. 发明授权
    • Method and apparatus with high resolution electrode configuration for imaging in oil-based muds
    • 用于油基泥浆成像的高分辨率电极结构的方法和装置
    • US08866483B2
    • 2014-10-21
    • US12680868
    • 2008-04-08
    • Michael BittarGuoyu HuGlenn Smollinger
    • Michael BittarGuoyu HuGlenn Smollinger
    • G01V3/00G01V3/24
    • G01V3/24
    • Various disclosed resistivity imaging tools and methods provide a high-resolution electrode configuration for imaging in oil-based imaging in oil-based muds. Some tool embodiments have a sensing surface that comprises: a measurement electrode, a focus electrode surrounding the measurement electrode, and a return electrode surrounding the focus electrode. The sensing surface can be provided on an extendable sensor pad or on the wall-contacting portion of a stabilizer. Some method embodiments include measuring the measurement electrode current while driving a voltage signal between the measurement electrode and the return electrode. The voltage signal may simultaneously or sequentially provide energy at different frequencies. The resistivity measurements are combined with tool position and orientation measurements to form a borehole wall image. Robust and reliable performance is expected in the hostile conditions often experienced by logging while drilling (LWD) tools, coupled with the ability to make micro-resistivity measurements with a resolution approaching that of electrode-grid tool designs.
    • 各种公开的电阻率成像工具和方法提供用于在油基泥浆中的油基成像中成像的高分辨率电极配置。 一些工具实施例具有感测表面,其包括:测量电极,围绕测量电极的聚焦电极和围绕聚焦电极的返回电极。 感测表面可以设置在可延伸的传感器垫或稳定器的壁接触部分上。 一些方法实施例包括在驱动测量电极和返回电极之间的电压信号的同时测量测量电极电流。 电压信号可以同时或顺序地提供不同频率的能量。 电阻率测量与工具位置和取向测量结合形成井壁图像。 在钻井(LWD)工具中经常遇到的敌对情况下,预期可靠的可靠性能,以及以分辨率接近电极网格工具设计的方式进行微电阻率测量的能力。