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    • 3. 发明授权
    • Process for determining the variation in the relative permeability of at least one fluid in a reservoir
    • 确定储存器中至少一种流体的相对渗透率的变化的方法
    • US07340384B2
    • 2008-03-04
    • US10065684
    • 2002-11-08
    • Jean-Pierre DelhommeYves Manin
    • Jean-Pierre DelhommeYves Manin
    • G06G7/48G06G7/50E21B49/00E21B47/00
    • G01N15/0826
    • A method for determining for a reservoir (1) containing fluids (W, O), the variation in the relative permeability (krO, krW) of at least one of the fluids, as a function of the saturation of at least one of the fluids (W, O),) is provided. According to this method a saturation distribution of one of the fluids of the reservoir is determined on the basis of a measurement of a physical property in the reservoir. A dynamic model (20) for the flow of fluids in the reservoir (1) is created. The dynamic model generates a saturation distribution. The saturation distribution (40) generated by the dynamic model is compared with saturation distribution obtained from measurement. The dynamic model (20) is updated with intermediate relative permeability values (krO)i and (krW)i and steps b and c are repeated if the saturation distribution generated by the dynamic model and that determined on the basis of measurement do not coincide.
    • 一种用于确定包含流体(W,O)的储存器(1),至少一种流体的相对渗透率(krO,krW)的变化作为至少一种流体的饱和度的函数的方法 (W,O))。 根据该方法,基于储层中的物理性质的测量来确定贮存器中的一种流体的饱和分布。 创建了用于储存器(1)中流体流动的动态模型(20)。 动态模型产生饱和分布。 将由动态模型生成的饱和度分布(40)与从测量获得的饱和度分布进行比较。 用中间相对磁导率值(kr0)和(krW)i i更新动态模型(20),并且如果由 动态模型和在测量的基础上确定不一致。
    • 4. 发明授权
    • Method and apparatus for improved depth matching of borehole images or core images
    • 改善钻孔图像或核心图像深度匹配的方法和装置
    • US07346454B2
    • 2008-03-18
    • US10537893
    • 2003-10-27
    • Gilles MathieuJean-Pierre DelhommePhilip CheungYinyu Wang
    • Gilles MathieuJean-Pierre DelhommePhilip CheungYinyu Wang
    • G01V1/40G01V1/00
    • G01V11/00G01V3/20G01V3/38
    • A method for depth matching borehole images and/or core section images is disclosed wherein signals from sensors at different levels on a logging tool are converted into an averaged signal representing the average bed signal at the center of the borehole at each of the different levels. A depth matching technique is applied to the averaged signals from the sensors at different levels on the logging tool to determine the optimum depth offset necessary for matching two sets of signals from sensors at the different levels of the logging tool. In an alternative embodiment of the invention a Hough transform is utilized to process the well log images and generate three-dimensional images in Hough space. The three dimensional images are converted into two-dimensional extremum curves. Depth matching is performed on the two dimensional extremum curves to calculate an offset to match the two dimensional extremum curves. The calculated offset is then applied to the well log images to depth match them.
    • 公开了一种用于深度匹配钻孔图像和/或核心部分图像的方法,其中在测井工具上的不同级别的传感器的信号被转换成表示在每个不同级别的钻孔中心处的平均床信号的平均信号。 深度匹配技术应用于测井工具上不同级别的传感器的平均信号,以确定在测井工具的不同级别匹配来自传感器的两组信号所需的最佳深度偏移。 在本发明的替代实施例中,使用霍夫变换来处理测井图像并在霍夫空间中产生三维图像。 三维图像被转换为​​二维极值曲线。 在二维极值曲线上执行深度匹配,以计算与二维极值曲线匹配的偏移。 然后将计算的偏移量应用于测井图像以与其深度匹配。
    • 8. 发明申请
    • Method and apparatus for improved depth matching of borehole images or core images
    • 改善钻孔图像或核心图像深度匹配的方法和装置
    • US20060031017A1
    • 2006-02-09
    • US10537893
    • 2003-10-27
    • Gilles MathieuJean-Pierre DelhommePhilip CheungYiny Wang
    • Gilles MathieuJean-Pierre DelhommePhilip CheungYiny Wang
    • G01V1/40
    • G01V11/00G01V3/20G01V3/38
    • A method for depth matching borehole images and/or core section images is disclosed wherein signals from sensors at different levels on a logging tool are converted into an averaged signal representing the average bed signal at the center of the borehole at each of the different levels. A depth matching technique is applied to the averaged signals from the sensors at different levels on the logging tool to determine the optimum depth offset necessary for matching two sets of signals from sensors at the different levels of the logging tool. In an alternative embodiment of the invention a Hough transform is utilized to process the well log images and generate three-dimensional images in Hough space. The three dimensional images are converted into two-dimensional extremum curves. Depth matching is performed on the two dimensional extremum curves to calculate an offset to match the two dimensional extremum curves. The calculated offset is then applied to the well log images to depth match them.
    • 公开了一种用于深度匹配钻孔图像和/或核心部分图像的方法,其中在测井工具上的不同级别的传感器的信号被转换成表示在每个不同级别的钻孔中心处的平均床信号的平均信号。 深度匹配技术应用于测井工具上不同级别的传感器的平均信号,以确定在测井工具的不同级别匹配来自传感器的两组信号所需的最佳深度偏移。 在本发明的替代实施例中,使用霍夫变换来处理测井图像并在霍夫空间中产生三维图像。 三维图像被转换为​​二维极值曲线。 在二维极值曲线上执行深度匹配,以计算与二维极值曲线匹配的偏移。 然后将计算的偏移量应用于测井图像以与其深度匹配。
    • 10. 发明授权
    • Method for performing a morphological survey of geological formations traversed by a borehole
    • 对钻孔穿过的地质构造进行形态学调查的方法
    • US06272232B1
    • 2001-08-07
    • US08335923
    • 1994-11-08
    • Jean-Pierre DelhommeJean-François Rivest
    • Jean-Pierre DelhommeJean-François Rivest
    • G06K900
    • G01V3/38G01V3/20
    • A morphological survey of geological formations traversed by a borehole includes constructing, from an initial image of the wall of the borehole representative of variations in a physical parameter of the formation in the longitudinal direction of the borehole (“depth”), and in the peripheral direction of the borehole wall (laterally), a “crossing-component image.” The cross-component image includes only those components of the parameter that extend all the way across the initial image from one side of the image to the other. The survey includes determining variations in one or more attributes relating to the parameter in the crossing-component image as a function of depth. The variations providing information relating to morphology to indicate solid zones, bedded zones, or different types of heterogeneous zones, for example.
    • 通过钻孔穿过的地质构造的形态学调查包括从钻孔壁的初始图像构成,其代表钻孔纵向方向上的地层的物理参数(“深度”)的变化以及周边的 钻孔壁方向(横向),“横分图像”。 跨分量图像仅包括从图像的一侧到另一侧的初始图像一直延伸的参数分量。 调查包括确定与交叉分量图像中的参数相关的一个或多个属性中的变化作为深度的函数。 提供与形态有关的信息的变体,例如指示固体区,床层区或不同类型的异质区。