基于地质力学的墨西哥湾深海钻井优化:以Buckskin为例

T. Ait-Ettajer, F. Giannangeli, J. Wood, John White, A. Litun
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摘要

墨西哥湾(GOM)深水油田开发的优化需要多学科的合作,包括钻井、地球物理、地质、岩石物理和地质力学。后者几十年来一直在上升(Brehm, Davis, Ward, & Bowman, 2004) (Crawford, Homburg, Freysteinson, & Amoruso, 2018) (Zaki, Li, & Clinton, 2018),它通过降低地质复杂地区(如低第三系Wilcox)的钻井和完井成本和风险,为增加价值做出了贡献。在Buckskin油田(Keathely Canyon),由于地质复杂性高(Ait-Ettajer, et al., 2017),并且为了确保最大的油藏接触和高产能,选择了包括穿过油藏段的大斜度段的钻井设计,因此必须使用1D和3D地质力学技术来优化2018年第一口开发井的钻井。地质力学研究结合区域和局部构造地质评价表明,由于构造构造是走滑的,因此储层段的最佳井位沿着最大水平应力方向(Tiwari, 2013),并且完井完整性将在井的整个生命周期内保持不变。地质力学研究的结果与预测一致,并确保在储层段注入超过400万磅的支撑剂。
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Optimization of Drilling in Deep-Offshore Gulf of Mexico Using Geomechanics: Example from Buckskin
The optimization of the field development in the deepwater Gulf of Mexico (GOM) requires the collaboaration of multiple disciplines including drilling, geophysics, geology, petrophysics and geomechanics. The latter has been on the rise for several decades (Brehm, Davis, Ward, & Bowman, 2004) (Crawford, Homburg, Freysteinson, & Amoruso, 2018) (Zaki, Li, & Clinton, 2018), and it contributed to adding value through reducing the cost and the risks of drilling and completion in geologically complex areas such as the lower tertiary Wilcox. In the case of Buckskin field (Keathely Canyon), the use of 1D and 3D geomechanics techniques was necessary for the optimization of the drilling of the first development well in 2018, due to the high geological complexity (Ait-Ettajer, et al., 2017) and the chosen drilling design that included a highly deviated section through the reservoir section, in order to ensure a maximum reservoir contact and high well deliverability. The geomechanics study, combined with a regional and local structural geology evaluation, indicated that the optimal well azimuth for the reservoir section is along the maximum horizontal stress since the tectonic regime is strike-slip (Tiwari, 2013), and that the completion integrity will be maintained throughout the life of the well. The results of the geomechanics study were in line with the prediction and ensured the injection of more than 4 million pounds of proppant in the reservoir section.
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