专利快速检索-快速检索全球专利，免费商用专利数据库-IPRDB

1. 发明申请

US20120201425A1 Method and Apparatus for Visualizing Multi-Dimensional Well Logging Data with Shapelets 有权
标题翻译：用Shapelet可视化多维测井数据的方法和装置
公开(公告)号：US20120201425A1
公开(公告)日：2012-08-09
申请号：US13375507
申请日：2009-10-15
申请人： Christian Stolte , John C. Rasmus , Koji Ito , Shahzad A. Asif , Denis Heliot
发明人： Christian Stolte , John C. Rasmus , Koji Ito , Shahzad A. Asif , Denis Heliot
IPC分类号： G06K9/00
CPC分类号： G06T19/00 , G01V3/38
摘要： A method for visualizing parametric logging data includes interpreting logging data sets, each logging data set corresponding to a distinct value of a progression parameter, calculating a geometric image including a representation of data from each of the logging data sets corresponding to a wellbore measured depth, and displaying the geometric image(s) at a position along a well trajectory corresponding to the wellbore measured depth. The progression parameter includes time, a resistivity measurement depth, differing tool modes that are sampling different volumes of investigation, and/or sampling different physical properties. The geometric images include a number of parallel lines having lengths determined according to the logging data and/or an azimuthal projection of the logging data, a number of concentric axial projections, and/or shapelets determined from parallel lines and/or concentric axial projections. The method includes dynamically determining a selected measured depth, measured depth interval, and/or azimuthal projection angle.
摘要翻译：用于可视化参数记录数据的方法包括解释记录数据集，每个记录数据集对应于进展参数的不同值，计算包括对应于井筒测量深度的每个记录数据集的数据的表示的几何图像，并且沿着与井筒测量深度相对应的井轨迹的位置显示几何图像。进展参数包括时间，电阻率测量深度，不同的工具模式，其对不同体积的调查进行采样和/或采样不同的物理特性。几何图像包括具有根据记录数据确定的长度和/或记录数据的方位角投影，多个同轴轴向突起和/或从平行线和/或同心轴向突起确定的形状的多条平行线。该方法包括动态地确定所选择的测量深度，测量深度间隔和/或方位投影角度。

2. 发明授权

US09047689B2 Method and apparatus for visualizing multi-dimensional well logging data with shapelets 有权
标题翻译：用shapelet可视化多维测井数据的方法和装置
公开(公告)号：US09047689B2
公开(公告)日：2015-06-02
申请号：US13375507
申请日：2009-10-15
申请人： Christian Stolte , John C. Rasmus , Koji Ito , Shahzad A. Asif , Denis Heliot
发明人： Christian Stolte , John C. Rasmus , Koji Ito , Shahzad A. Asif , Denis Heliot
IPC分类号： G06K9/00 , G06T19/00 , G01V3/38
CPC分类号： G06T19/00 , G01V3/38
摘要： A method for visualizing parametric logging data includes interpreting logging data sets, each logging data set corresponding to a distinct value of a progression parameter, calculating a geometric image including a representation of data from each of the logging data sets corresponding to a wellbore measured depth, and displaying the geometric image(s) at a position along a well trajectory corresponding to the wellbore measured depth. The progression parameter includes time, a resistivity measurement depth, differing tool modes that are sampling different volumes of investigation, and/or sampling different physical properties. The geometric images include a number of parallel lines having lengths determined according to the logging data and/or an azimuthal projection of the logging data, a number of concentric axial projections, and/or shapelets determined from parallel lines and/or concentric axial projections. The method includes dynamically determining a selected measured depth, measured depth interval, and/or azimuthal projection angle.
摘要翻译：用于可视化参数记录数据的方法包括解释记录数据集，每个记录数据集对应于进展参数的不同值，计算包括对应于井筒测量深度的每个记录数据集的数据的表示的几何图像，并且沿着与井筒测量深度相对应的井轨迹的位置显示几何图像。进展参数包括时间，电阻率测量深度，不同的工具模式，其对不同体积的调查进行采样和/或采样不同的物理特性。几何图像包括具有根据记录数据确定的长度和/或记录数据的方位角投影，多个同轴轴向突起和/或从平行线和/或同心轴向突起确定的形状的多条平行线。该方法包括动态地确定所选择的测量深度，测量深度间隔和/或方位投影角度。

3. 发明申请

US20120188236A1 System, Method and Apparatus for Visualizing Changes in Cylindrical Volumes 审中-公开
标题翻译：用于可视化圆柱体变化的系统，方法和装置
公开(公告)号：US20120188236A1
公开(公告)日：2012-07-26
申请号：US13375521
申请日：2009-09-21
申请人： Fabienne Legendre , Koji Ito , Christian Stolte , John C. Rasmus , Shahzad A. Asif
发明人： Fabienne Legendre , Koji Ito , Christian Stolte , John C. Rasmus , Shahzad A. Asif
IPC分类号： G06T15/00
CPC分类号： G06T19/00 , E21B47/0002 , G06T2219/008
摘要： A method includes interpreting first dimensional data such as a caliper log for a wellbore at a first time, and interpreting second dimensional data such as a caliper log for the wellbore at a second time. The method further includes determining a dimensional differential in response to the first dimensional data and the second dimensional data. The dimensional differential includes a volume difference between cross-sectional profiles from the first dimensional data and the second dimensional data. The cross-sectional profiles for comparison may be at a specified axial location or range of axial locations in the wellbore. The method includes graphically displaying the dimensional differential by marking the dimensional differential with a first marker index where the first dimensional data is inside the second dimensional data, and with a second marker index where the first dimensional data is outside the second dimensional data.
摘要翻译：一种方法包括在第一时间解释用于井眼的一维数据，例如井眼的测径记录，并且在第二时间解释用于井筒的二维数据，例如测径记录。该方法还包括响应于第一维数据和第二维数据确定尺寸差。尺寸差分包括来自第一维数据和第二维数据的横截面轮廓之间的体积差。用于比较的横截面轮廓可以在井筒的轴向位置的指定轴向位置或范围内。该方法包括通过用第一标记索引（其中第一维度数据位于第二维数据内）标记尺寸微分，以及第二标记索引，其中第一维数据位于第二维数据之外，以图形方式显示尺寸差。

4. 发明授权

US08473212B2 Log processing in highly deviated wellbores 有权
标题翻译：日志处理在高度偏差的井筒中
公开(公告)号：US08473212B2
公开(公告)日：2013-06-25
申请号：US12712704
申请日：2010-02-25
申请人： John C. Rasmus , John P. Horkowitz , Koji Ito , Christian Stolte , Shahzad Asif , Bernadette Tabanou
发明人： Jacques R. Tabanou , John C. Rasmus , John P. Horkowitz , Koji Ito , Christian Stolte , Shahzad Asif
IPC分类号： G01V1/40
CPC分类号： G01V11/00 , G01V2210/1429
摘要： A method for processing well logging data includes method dividing the well logging data into a number of constant dimensional effect segments, where each constant dimensional effect segment defines an interval having a similar dimensional effect on the log response. The well logging data is taken from a highly deviated well. The method further includes dividing the constant dimensional effect segments into a number of constant property intervals, each constant dimensional effect segment including at least one corresponding constant property interval, and each constant property interval defining a wellbore distance over which a formation property is substantially constant that results in a log response having a low variance. The method further includes providing the constant property intervals to an output device. The method further includes determining constant property intervals in 3D volume space projected them into true stratigraphic thickness, and providing the resulting log-squared data to the output device.
摘要翻译：一种用于处理测井数据的方法包括将测井数据分成多个恒定维度效应段的方法，其中每个恒定维度效应段定义具有与对数响应相似的尺寸效应的间隔。测井数据取自高度偏差的井。所述方法还包括将恒定维数效应段划分成多个恒定特性间隔，每个恒定维度效应段包括至少一个对应的恒定特性间隔，以及每个常数特性间隔，其定义井眼距离，导致具有低方差的对数响应。该方法还包括向输出设备提供恒定的属性间隔。该方法还包括确定3D体积空间中的恒定属性间隔将它们投影成真实的地层厚度，并将所得的对数平方数据提供给输出装置。

5. 发明申请

US20100312478A1 LOG PROCESSING IN HIGHLY DEVIATED WELLBORES 有权
标题翻译：在高度评价的啤酒桶中进行日志处理
公开(公告)号：US20100312478A1
公开(公告)日：2010-12-09
申请号：US12712704
申请日：2010-02-25
申请人： JACQUES R. TABANOU , John C. Rasmus , John P. Horkowitz , Koji Ito , Christian Stolte , Shahzad Asif , Bernadette Tabanou
发明人： JACQUES R. TABANOU , John C. Rasmus , John P. Horkowitz , Koji Ito , Christian Stolte , Shahzad Asif , Bernadette Tabanou
IPC分类号： G01V3/18 , G01V3/20 , G01V3/32 , G06F19/00 , G01V3/38
CPC分类号： G01V11/00 , G01V2210/1429
摘要： A method for processing well logging data includes method dividing the well logging data into a number of constant dimensional effect segments, where each constant dimensional effect segment defines an interval having a similar dimensional effect on the log response. The well logging data is taken from a highly deviated well, which may include portions deviated at greater than 90-degrees. The method further includes dividing the constant dimensional effect segments into a number of constant property intervals, each constant dimensional effect segment including at least one corresponding constant property interval, and each constant property interval defining a wellbore distance over which a formation property is substantially constant that results in a log response having a low variance. The method further includes providing the constant property intervals to an output device. The method further includes determining constant property intervals in 3D volume space projected them into true stratigraphic thickness, and providing the resulting log-squared data to the output device.
摘要翻译：一种用于处理测井数据的方法包括将测井数据分成多个恒定维度效应段的方法，其中每个恒定维度效应段定义具有与对数响应相似的尺寸效应的间隔。测井数据取自高度偏差的井，其可以包括偏离大于90度的部分。所述方法还包括将恒定维数效应段划分成多个恒定特性间隔，每个恒定维度效应段包括至少一个对应的恒定特性间隔，以及每个常数特性间隔，其定义井眼距离，导致具有低方差的对数响应。该方法还包括向输出设备提供恒定的属性间隔。该方法还包括确定3D体积空间中的恒定属性间隔将它们投影成真实的地层厚度，并将所得的对数平方数据提供给输出装置。

6. 发明授权

US08442769B2 Method of determining and utilizing high fidelity wellbore trajectory 有权
标题翻译：确定和利用高保真井眼轨迹的方法
公开(公告)号：US08442769B2
公开(公告)日：2013-05-14
申请号：US12742514
申请日：2008-11-11
申请人： Wayne J. Phillips , Georgiy Bordakov , Alexander Kostin , Shyam Mehta , Denis Heliot , John C. Rasmus
发明人： Wayne J. Phillips , Georgiy Bordakov , Alexander Kostin , Shyam Mehta , Denis Heliot , John C. Rasmus
IPC分类号： E21B47/022
CPC分类号： E21B47/022 , E21B47/04
摘要： Various methods are disclosed, comprising obtaining a plurality of raw depth measurements for a wellbore; obtaining survey data about a bottom hole assembly; obtaining depth compensation information; calculating a plurality of compensated depth measurements from the raw depth measurements and the depth compensation information and one or more additional corrections for residual pipe compliance, tide, and rig heave; calculating sag angle and correcting the survey data with the sag angle; determining a high fidelity wellbore trajectory from the compensated depth measurements and the survey data; and then employing the high fidelity wellbore trajectory in various drilling, formation evaluation, and production and reservoir analysis applications. Depth compensation information may comprise at least one of weight on bit, a friction factor, temperature profile, borehole profile, drill string mechanical properties, hookload, and drilling fluid property. The surveys may include both static and continuous surveys.
摘要翻译：公开了各种方法，包括获得井筒的多个原始深度测量值; 获取有关井底组件的调查数据; 获取深度补偿信息; 从原始深度测量和深度补偿信息计算多个补偿深度测量值，以及对于残余管道顺应性，潮汐和钻井起重的一个或多个附加校正; 计算下垂角度并用下垂角度校正测量数据; 从补偿深度测量和测量数据确定高保真井筒轨迹; 然后在各种钻井，地层评估，生产和油藏分析应用中采用高保真井眼轨迹。深度补偿信息可以包括钻头重量，摩擦因数，温度分布，钻孔剖面，钻柱机械性能，钩载和钻井液特性中的至少一个。调查可能包括静态和连续调查。

7. 发明申请

US20100307742A1 METHOD OF DETERMINING AND UTILIZING HIGH FIDELITY WELLBORE TRAJECTORY 有权
标题翻译：确定和利用高密度井眼TRAJECTORY的方法
公开(公告)号：US20100307742A1
公开(公告)日：2010-12-09
申请号：US12742514
申请日：2008-11-11
申请人： Wayne J. Phillips , Georgiy Bordakov , Alexander Kostin , Shyam Mehta , Denis Heliot , John C. Rasmus
发明人： Wayne J. Phillips , Georgiy Bordakov , Alexander Kostin , Shyam Mehta , Denis Heliot , John C. Rasmus
IPC分类号： E21B47/00
CPC分类号： E21B47/022 , E21B47/04
摘要： Various methods are disclosed, comprising obtaining a plurality of raw depth measurements for a wellbore; obtaining survey data about a bottom hole assembly; obtaining depth compensation information; calculating a plurality of compensated depth measurements from the raw depth measurements and the depth compensation information and one or more additional corrections for residual pipe compliance, tide, and rig heave; calculating sag angle and correcting the survey data with the sag angle; determining a high fidelity wellbore trajectory from the compensated depth measurements and the survey data; and then employing the high fidelity wellbore trajectory in various drilling, formation evaluation, and production and reservoir analysis applications. Depth compensation information may comprise at least one of weight on bit, a friction factor, temperature profile, borehole profile, drill string mechanical properties, hookload, and drilling fluid property. The surveys may include both static and continuous surveys.
摘要翻译：公开了各种方法，包括获得井筒的多个原始深度测量值; 获取有关井底组件的调查数据; 获取深度补偿信息; 从原始深度测量和深度补偿信息计算多个补偿深度测量值，以及对于残余管道顺应性，潮汐和钻井起重的一个或多个附加校正; 计算下垂角度并用下垂角度校正测量数据; 从补偿深度测量和测量数据确定高保真井筒轨迹; 然后在各种钻井，地层评估，生产和油藏分析应用中采用高保真井眼轨迹。深度补偿信息可以包括钻头重量，摩擦因数，温度分布，钻孔剖面，钻柱机械性能，钩载和钻井液特性中的至少一个。调查可能包括静态和连续调查。

8. 发明授权

US09175559B2 Identification of casing collars while drilling and post drilling using LWD and wireline measurements 有权
标题翻译：使用LWD和有线测量在钻井和后钻时识别套管
公开(公告)号：US09175559B2
公开(公告)日：2015-11-03
申请号：US13122127
申请日：2009-10-02
申请人： Najmud Dowla , John C. Rasmus , Abhijeet Nayan , Taesoo Kim , Richard J. Radtke , Michael Evans
发明人： Najmud Dowla , John C. Rasmus , Abhijeet Nayan , Taesoo Kim , Richard J. Radtke , Michael Evans
IPC分类号： E21B47/09 , E21B17/08
CPC分类号： E21B47/09 , E21B17/08 , E21B47/12
摘要： Systems and methods identify and/or detect one or more features of a well casing by utilizing one or more downhole measurements obtainable by a downhole component. The one or more features of the well casing are identifiable and/or detectable from the one or more measurements associated with one or more properties of the one or more features of the well casing. The one or more measurements for indentifying and/or detecting a presence and/or a location of the one or more features of the well casing include sonic measurements, nuclear measurements, gamma ray measurements, photoelectric measurements, resistivity measurements and/or combinations thereof.
摘要翻译：系统和方法通过利用由井下部件可获得的一个或多个井下测量来识别和/或检测井套管的一个或多个特征。井套管的一个或多个特征可以从与井套管的一个或多个特征的一个或多个特性相关联的一个或多个测量值中被识别和/或检测。用于识别和/或检测井壳的一个或多个特征的存在和/或位置的一个或多个测量包括声波测量，核测量，伽马射线测量，光电测量，电阻率测量和/或其组合。

9. 发明申请

US20130186688A1 METHODS FOR DETERMINING FORMATION STRENGTH OF A WELLBORE 有权
标题翻译：确定井筒形成强度的方法
公开(公告)号：US20130186688A1
公开(公告)日：2013-07-25
申请号：US13554649
申请日：2012-07-20
申请人： John C. Rasmus , Vladimir Vaynshteyn , Roberto Suarez-Rivera
发明人： John C. Rasmus , Vladimir Vaynshteyn , Roberto Suarez-Rivera
IPC分类号： E21B47/06
CPC分类号： E21B47/06 , E21B21/08 , E21B43/26
摘要： A system and a method may determine formation strength of a well. The system and the method may use pressure measurements and temperature measurements to determine controlled fracture pressures before the uncontrolled fracture pressure is reached. The system and the method may use pressure measurements and temperature measurements to determine closure stresses while drilling and may use the closure stresses with core and log measurements to optimize a hydraulic stimulation program.
摘要翻译：系统和方法可以确定井的地层强度。该系统和方法可以使用压力测量和温度测量来确定在达到不受控的断裂压力之前的受控断裂压力。系统和方法可以使用压力测量和温度测量来确定钻井时的闭合应力，并且可以使用具有岩心和对数测量的闭合应力来优化液压刺激程序。

10. 发明申请

US20110290011A1 IDENTIFICATION OF CASING COLLARS WHILE DRILLING AND POST DRILLING USING LWD AND WIRELINE MEASUREMENTS 有权
标题翻译：使用LWD和WIRELINE测量来识别钻孔和钻孔后的套管
公开(公告)号：US20110290011A1
公开(公告)日：2011-12-01
申请号：US13122127
申请日：2009-10-02
申请人： Najmud Dowla , John C. Rasmus , Abhijeet Nayan , Taesoo Kim , Richard J. Radtke , Michael Evans
发明人： Najmud Dowla , John C. Rasmus , Abhijeet Nayan , Taesoo Kim , Richard J. Radtke , Michael Evans
IPC分类号： E21B49/00
CPC分类号： E21B47/09 , E21B17/08 , E21B47/12
摘要： Systems and methods identify and/or detect one or more features of a well casing by utilizing one or more downhole measurements obtainable by a downhole component. The one or more features of the well casing are identifiable and/or detectable from the one or more measurements associated with one or more properties of the one or more features of the well casing. The one or more measurements for indentifying and/or detecting a presence and/or a location of the one or more features of the well casing include sonic measurements, nuclear measurements, gamma ray measurements, photoelectric measurements, resistivity measurements and/or combinations thereof.
摘要翻译：系统和方法通过利用由井下部件可获得的一个或多个井下测量来识别和/或检测井套管的一个或多个特征。井套管的一个或多个特征可以从与井套管的一个或多个特征的一个或多个特性相关联的一个或多个测量值中被识别和/或检测。用于识别和/或检测井壳的一个或多个特征的存在和/或位置的一个或多个测量包括声波测量，核测量，伽马射线测量，光电测量，电阻率测量和/或其组合。

你已经成功收藏专利！

检索式保存成功!

IPRDB

热门服务

关于我们

友情链接

联系方式