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    • 3. 发明授权
    • System and method for estimating formation characteristics in a well
    • 用于估计井中地层特征的系统和方法
    • US08736263B2
    • 2014-05-27
    • US12669590
    • 2008-07-24
    • Chanh Cao Minh
    • Chanh Cao Minh
    • G01V3/00
    • G01V3/32G01N24/081G01R33/3808G01R33/448G01R33/4808
    • A technique utilizes the acquisition of data via nuclear magnetic resonance at multiple depths of investigation in a well region. The acquired data is processed to estimate variable fluid mixture densities at different radial depths. The variable fluid mixture densities and a radial response from a density tool, for example, can be used to calculate an effective fluid mixture density and used to interpret density logs. Other logs such as neutron log, induction resistivity log, and dielectric permittivity log can be combined with NMR. For these tools a corresponding effective formation property can be calculated and used to determine other formation characteristics, such as total porosity, total density, dielectric permittivity, electric resistivity, and formation characteristics derivable from these.
    • 一种技术利用在井区域的多个调查深度通过核磁共振获取数据。 处理所获取的数据以估计不同径向深度处的可变流体混合物密度。 例如,可以使用来自密度工具的可变流体混合物密度和径向响应来计算有效的流体混合物密度并用于解释密度测井。 其他原子如中子对数,感应电阻率对数和介电常数对数可与NMR结合。 对于这些工具,可以计算相应的有效形成性质并用于确定其它形成特征,例如总孔隙率,总密度,介电常数,电阻率和可从其得到的形成特征。
    • 7. 发明授权
    • Tuning of nuclear magnetic resonance logging tools
    • 调整核磁共振测井仪
    • US07026814B2
    • 2006-04-11
    • US10742481
    • 2003-12-19
    • Ernesto BordonMartin D. HurlimannChanh Cao Minh
    • Ernesto BordonMartin D. HurlimannChanh Cao Minh
    • G01V3/00
    • G01N24/081G01R33/3628
    • A method for tuning a nuclear magnetic resonance (NMR) tool having an operating frequency and equipped with an antenna, is disclosed comprising: (a) transmitting a rf magnetic field to a sample under investigation; (b) receiving an NMR signal from the sample within a detection window; (c) determining mistuning of said antenna relative to said operating frequency; (d) analyzing the received echo signal to determine mistuning of the received signal from the operating frequency. The mistuning of the received signals from the operating frequency may be determined by analyzing any changes in phase of the echo along the echo signal. The antenna tuning process may be automated by measuring calibrated signal amplitudes at more than one frequency and identifying a maximum amplitude. The system tuning may be maintained by repeating (a) through-(d) while operating the tool and implementing a feedback loop.
    • 公开了一种用于调谐具有工作频率并配备有天线的核磁共振(NMR)工具的方法,包括:(a)将RF磁场传送到被调查的样品; (b)在检测窗口内从样品接收NMR信号; (c)确定所述天线相对于所述工作频率的失谐; (d)分析所接收的回波信号以确定来自工作频率的接收信号的失谐。 可以通过分析沿回波信号的回波相位的任何变化来确定来自工作频率的接收信号的失谐。 天线调谐过程可以通过在多于一个频率上测量校准信号幅度并识别最大振幅来自动化。 在操作工具并实施反馈回路时,可以通过重复(a)至(d)来维持系统调整。
    • 9. 发明授权
    • Determination of oil viscosity and continuous gas oil ratio from nuclear magnetic resonance logs
    • 核磁共振测井油粘度和连续瓦斯油比
    • US07924001B2
    • 2011-04-12
    • US12423469
    • 2009-04-14
    • Chanh Cao Minh
    • Chanh Cao Minh
    • G01V3/00
    • G01V3/32G01N24/081G01R33/50G01R33/56341
    • A method for determining oil viscosity and continuous gas-oil-ratio (GOR) from nuclear magnetic resonance logs (NMR). The method includes obtaining a set of NMR data of a portion of the subterranean formation from inside the wellbore without acquiring formation fluid sample; isolating a quantitative reservoir fluid information associated with oil from oil based mud (OBM) using radial profiling of the set of NMR data, wherein the OBM is used for extracting fluid from the underground reservoir; determining GOR related information associated with the portion of the subterranean formation from the quantitative reservoir fluid information associated with oil, wherein the GOR related information is determined based on a predetermined model; and performing operations for the oilfield based on the GOR related information.
    • 一种从核磁共振测井(NMR)测定油粘度和连续瓦斯油比(GOR)的方法。 该方法包括从井筒内部获取一部分地层的NMR数据,而不获取地层流体样品; 使用所述一组NMR数据的径向剖面来分离与油基泥浆(OBM)相关的油的定量储层流体信息,其中所述OBM用于从所述地下储层中提取流体; 根据与油相关的定量油藏流体信息确定与地下地层部分相关的GOR相关信息,其中基于预定模型确定GOR相关信息; 并根据GOR相关信息对油田进行作业。
    • 10. 发明申请
    • ESTIMATING SIGMA LOG BEYOND THE MEASUREMENTS POINTS
    • 估计SIGMA记录在测量点之外
    • US20110004408A1
    • 2011-01-06
    • US12797182
    • 2010-06-09
    • Chanh Cao MinhMarie Laure MauborgneRoger GriffithsDarwin Ellis
    • Chanh Cao MinhMarie Laure MauborgneRoger GriffithsDarwin Ellis
    • G01V5/04G06F19/00
    • G01V11/00
    • The present disclosure relates to a method to determine the capture cross-section of a subsurface formation at a desired depth in the formation. A database of Sigma values for known lithologies, porosities, and salinities is provided, and multiple Sigma measurements are obtained from a downhole logging tool. Within the database, Sigma values are interpolated to determine the respective depths of investigation of the multiple Sigma measurements. A monotonic function is fitted to the multiple Sigma measurements at the determined depths of investigation, and the capture cross-section of the subsurface formation at any desired depth in the formation is determined using the fitted function. Similarly, a system to determine the capture cross-section of a subsurface formation at a desired depth in the formation and/or a depth of invasion of drilling fluids is also disclosed.
    • 本公开涉及确定地层中所需深度处的地下地层的捕获横截面的方法。 提供了用于已知岩性,孔隙度和盐度的Sigma值的数据库,并且从井下测井工具获得多个Sigma测量。 在数据库中,内插Sigma值以确定多个Sigma测量的相应调查深度。 在确定的调查深度上将多元西格玛测量拟合为单调函数,并且使用拟合函数确定地层中任何所需深度处的地下地层的捕获截面。 类似地,还公开了一种用于确定地层中所需深度和/或钻井液侵入深度的地下地层的捕获横截面的系统。