Advanced Horizontal Well Correlation Method for Dynamic Update of Subsurface Layers While Geosteering

Abdul Mohsen Al-Maskeen, Sadaqat S. Ali
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Abstract

A new automated approach to well correlation is presented that utilizes real-time Logging While-Drilling (LWD) data and predicted well curve to dynamically update subsurface layers during geosteering operations. The automatically created predicted log and a dynamically updated structural framework provides the foundation of the process. The predicted log is created using vertical sections of the nearby wells, which provide high confidence for determining depth and stratigraphic position of the geosteered well. The results give a better understanding of thickness variation in the horizontal part of the reservoir and maximize the reservoir contact (Sung, 2008). A new advanced methodology introduced in this study involves the creation of a dynamic structural framework model, from which horizontal well correlation is performed using real-time well logs and predicted logs that are generated from adjacent wells. The predicted logs are correlated to the LWD logs using anchor points and an interactive stretching and squeezing process that honors true stratigraphic thickness. Each new anchor point results in the creation of an additional control point that is used to build a more precise structural framework model. This new approach enables more rapid well log interpretation, increased accuracy and the ability to dynamically update the subsurface model during drilling. It also enables more efficient steering of the wellbore into the most productive zones of the reservoir. This study demonstrates how wells with over 10,000 feet of horizontal reservoir contact can be correlated in a real-time geosteering environment in a dynamic, efficient and accurate manner. The proposed process dramatically helps reduce the cost of drilling and the time it takes to dynamically regenerate accurate updated maps of the subsurface. It represents a major improvement in the understanding and modeling of complex, heterogeneous reservoirs by fostering a multi-disciplinary environment of cross-domain experts that are able to collaborate seamlessly as asset-teams. Both accuracy and efficiency gains have been realized by incorporating this methodology in the characterization of multi-stacked reservoirs.
地质导向时地下层动态更新的先进水平井相关方法
提出了一种新的自动化井相关性方法,该方法利用实时随钻测井(LWD)数据和预测井曲线,在地质导向作业期间动态更新地下层。自动创建的预测日志和动态更新的结构框架为流程提供了基础。预测测井是利用附近井的垂直剖面生成的,这为确定地质导向井的深度和地层位置提供了高可信度。结果可以更好地了解储层水平部分的厚度变化,并最大限度地提高储层接触(Sung, 2008)。该研究引入了一种新的先进方法,即创建动态结构框架模型,利用实时测井数据和邻近井的预测测井数据进行水平井对比。利用锚点和相互作用的拉伸和挤压过程,预测的测井曲线与随钻测井曲线相关联,从而获得真实的地层厚度。每个新的锚点都会导致创建一个额外的控制点,该控制点用于构建更精确的结构框架模型。这种新方法可以更快地解释测井曲线,提高精度,并能够在钻井过程中动态更新地下模型。它还可以更有效地将井眼导向到油藏的最高产区域。该研究展示了如何在实时地质导向环境下,以动态、高效和准确的方式,对超过10,000英尺水平油藏接触层的井进行关联。该方法极大地降低了钻井成本,减少了动态生成准确更新的地下地图所需的时间。它通过培养跨领域专家的多学科环境,代表了对复杂非均质油藏的理解和建模的重大改进,这些专家能够作为资产团队进行无缝协作。通过将该方法应用于多层储层的表征,实现了精度和效率的双重提高。
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