公开(公告)号：US20150276966A1

公开(公告)日：2015-10-01

申请号：US14669683

申请日：2015-03-26

Applicant: Schlumberger Technology Corporation

Inventor： Gong Li Wang ,  Thomas Barber ,  Peter Wu ,  David F. Allen ,  Aria Abubakar

IPC: G01V3/20 ,  G01V99/00 ,  G01V3/38

CPC classification number: G01V3/38 ,  G01V3/28

Abstract: A method for determining resistivity of subsurface formations includes generating an initial model of the formations from multiaxial electromagnetic transimpedance measurements, the model comprising values of vertical resistivity, horizontal resistivity, crossbed dip, crossbed azimuth, and bedding dip and azimuth. Expected measurements generated from the initial model measurements are decomposed into ordinary and extraordinary components. The actual tool measurements are compared to the summation of the expected decomposed measurement components. The initial model is adjusted, the expected decomposed components are recalculated and the foregoing are repeated until the difference between the actual tool measurements and the summation of the expected decomposed components falls below a selected threshold.

Abstract translation: 用于确定地下地层电阻率的方法包括从多轴电磁互阻测量产生地层的初始模型，该模型包括垂直电阻率，水平电阻率，交叉倾角，交叉方位角以及铺垫倾角和方位角的值。 从初始模型测量产生的预期测量值被分解为普通和非凡的组件。 将实际的刀具测量与预期分解的测量组件的总和进行比较。 调整初始模型，重新计算预期的分解组分，并重复上述内容，直到实际工具测量值与预期分解组分的总和之间的差值低于选定的阈值。

公开(公告)号：US10444399B2

公开(公告)日：2019-10-15

申请号：US14669683

申请日：2015-03-26

Applicant: Schlumberger Technology Corporation

Inventor： Gong Li Wang ,  Thomas Barber ,  Peter Wu ,  David F. Allen ,  Aria Abubakar

IPC: G01V3/38 ,  G01V3/28

Abstract: A method for determining resistivity of subsurface formations includes generating an initial model of the formations from multiaxial electromagnetic transimpedance measurements, the model comprising values of vertical resistivity, horizontal resistivity, crossbed dip, crossbed azimuth, and bedding dip and azimuth. Expected measurements generated from the initial model measurements are decomposed into ordinary and extraordinary components. The actual tool measurements are compared to the summation of the expected decomposed measurement components. The initial model is adjusted, the expected decomposed components are recalculated and the foregoing are repeated until the difference between the actual tool measurements and the summation of the expected decomposed components falls below a selected threshold.