Well Shear Associated with Conventional and Unconventional Operations: Diagnosis and Mechanisms

IF 1.3 4区 工程技术 Q3 ENGINEERING, PETROLEUM SPE Drilling & Completion Pub Date : 2021-02-01 DOI:10.2118/205007-PA
R. Ewy
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引用次数: 3

Abstract

Wells are sometimes deformed due to geomechanical shear slip, which occurs on a localized slip surface, such as a bedding plane, fault, or natural fracture. This can occur in the overburden above a conventional reservoir (during production) or within an unconventional reservoir (during completion operations). Shear slip will usually deform the casing into a recognizable shape, with lateral offset and two opposite-trending bends, and ovalized cross sections. Multifinger casing caliper tools have a recognizable response to this shape and are especially useful for diagnosing well shear. Certain other tools can also provide evidence for shear deformation. Shear deformations above a depleting, compacting reservoir are usually due to slip on bedding planes. They usually occur at multiple depths and are driven by overburden bending in response to reservoir differential compaction. Shear deformations in unconventional reservoirs, for the examples studied, have been found to be caused by slip on bedding planes and natural fractures. In both cases, models, field data, and physical reasoning suggest that slip occurs primarily due to fluid pressurization of the interface. In the case of bedding plane slip, fracturing pressure greater than the vertical stress (in regions where the vertical stress is the intermediate stress) could lead to propagation of a horizontal fracture, which then slips in shear.
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与常规和非常规作业相关的井剪切:诊断和机制
井有时会因地质力学剪切滑移而变形,这种滑移发生在局部滑移面上,如层理面、断层或天然裂缝。这可能发生在常规油藏的上覆层(在生产过程中),也可能发生在非常规油藏的上覆层(在完井作业中)。剪切滑移通常会使套管变形为可识别的形状,具有横向偏移和两个相反走向的弯曲,以及椭圆形截面。多指套管测径器对这种形状有明显的响应,对于诊断井内剪切尤其有用。某些其他工具也可以提供剪切变形的证据。在枯竭、压实的储层上发生剪切变形通常是由于层理面的滑动造成的。它们通常发生在多个深度,并由储层压实差异引起的覆盖层弯曲驱动。研究发现,非常规储层中的剪切变形是由层理面滑移和天然裂缝引起的。在这两种情况下,模型、现场数据和物理推理都表明,滑移的发生主要是由于界面的流体增压。在层理平面滑移的情况下,压裂压力大于垂直应力(在垂直应力为中间应力的区域)可能导致水平裂缝的扩展,然后发生剪切滑移。
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来源期刊
SPE Drilling & Completion
SPE Drilling & Completion 工程技术-工程:石油
CiteScore
4.20
自引率
7.10%
发文量
29
审稿时长
6-12 weeks
期刊介绍: Covers horizontal and directional drilling, drilling fluids, bit technology, sand control, perforating, cementing, well control, completions and drilling operations.
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