地质导向期间的调查管理

Ilnar Nailevich Sabirov, Anton Vladimirovich Kristya
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引用次数: 0

摘要

地质导向通常用于解决地质上的不确定性,例如层位结构位置或构造倾角的不确定性。在钻井过程中,定向测量测量结果是真实的,而不考虑与仪器相关的不确定性。测量误差不能完全排除,但通过考虑地球磁场的可变性和外部因素对工具的影响(通过采用质量控制和定向测量校正),可以将测量误差减少到最小(减少测量的“不确定椭圆”),从而降低井筒穿过流体接触的风险。本文主要研究了在钻井过程中测斜仪测量误差的检测和最小化方法,以及测量结果在钻井地质支持中的应用。本文介绍了钻孔时测斜仪测量值校正方法的原理,并指出了该校正方法的适用情况。本文探讨了在这些情况下采用测量质量控制方法和工具来减小测量误差的前提条件。考虑了利用地磁参考IFR方法,以及对遥测系统BHA凹陷和MSA测量值进行校正的方法来完成地质任务的可能性。本文提供了一个大水平井段钻井后定向测量质量控制的实例。在工作过程中,沿垂直和水平方向的测量误差值是在与考虑井的井口有较大偏差的情况下确定的。重点分析了已识别的倾角误差及其后果和对井眼地质钻井的影响,并考虑了利用随钻校正定向测量方法提高地质支撑质量的一个例子。
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Survey Management During Geosteering
Geosteering is usually responsible for addressing geological uncertainties, such as the uncertainty in the position of the horizon structure or the structural dip angle. During drilling, the directional survey measurements are taken as true, whilst the uncertainties related to the instruments are not considered. Measurement errors cannot be completely excluded, but they can be reduced to a minimum (reducing the "ellipse of uncertainty" of measurements) by considering the variability of the Earth's magnetic field and the influence of the external factors on the tool (by employing quality control and correction of directional measurements), as a result, reducing the risks of crossing the fluid contacts by the wellbore. This work is devoted to the methods of detecting and minimizing the inclinometer measurement error while drilling, as well as the application of the results for geological support of drilling. The article describes the principle of the methodology for correcting the inclinometer measurements while drilling and indicates the cases in which the correction method is applicable. The paper considers the prerequisites for using the measurement quality control method and tools to reduce the measurement error in these cases. The possibility of using the method of geomagnetic referencing IFR, as well as methods for correcting measurements of the telemetry system BHA Sag and MSA, to fulfill geological tasks is considered. This paper provides an example of quality control of directional measurements after drilling a well with an extended horizontal section. In the course of the work, the values of measurement errors along the vertical and lateral were established at a large deviation from the wellhead of the considered well. Attention is focused on the analysis of the identified inclinometry errors, their consequences and impact on the geological drilling of the wellbore and considered an example of improving the quality of geological support using the method of correcting directional measurements while drilling.
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