Montney和Duvernay的地下驱动连通性描述说明了单点与多点井结构的适用性

B. Stephenson, T. Bai, M. Fay, E. Galan, Jeff MacDonald, Ryan Carduner
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引用次数: 0

摘要

单点进入完井体系结构已经在北美的几个水力增产区实施。目的是了解岩石的固有特性,以及我们可以诊断的水力裂缝如何为单点和多点完井设计的适用性提供信息。Montney和Duvernay的井采用了单点进入设计,并对井的性能进行了评估。几年来,在这两个地层中进行了多次诊断,包括微地震和地球化学指纹数据,可以对总体几何形状和连通性进行一般描述。通过单点完井设计,可以在Montney中获得光纤的初步结果。裂缝诊断数据是在连接的9个主要地下控制的背景下编译和描述的。在Montney,单点入口井的完井强度变化(如段长)如何改变生产动态结果是相对清楚的。在迪韦内,不确定性明显更多。这一对比决定采用单点进入设计来处理Montney的几个后续垫块,而Duvernay井更倾向于采用多点封塞和完井。成本和分段隔离是考虑因素之一,但另一个解释是,在Montney地区,主要的平面裂缝几何形状使每个压裂段都能按比例发挥作用,从而确保了从近场到远场的增产分配效果。Montney的干气区非常坚硬,没有天然裂缝,断层很少,没有密封问题,也没有明显的裂缝障碍。相反,在Duvernay,裂缝几何形状的固有复杂性使远场增产分配的有效性复杂化。此外,富液烃系统的低流动性可能受益于潜在的更紧凑的裂缝间距,这在多簇设计中是可能的,即使单点的不均匀性可能会增加。据推测,在具有复杂裂缝几何形状的地层中,需要对单点入口设计进行“孤注一击”,并与其他价值驱动因素一起进行井结构选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sub-Surface Driven Connectivity Descriptions in the Montney and the Duvernay Inform the Applicability of Single-Point Versus Multi-Point Well Architectures
A single-point entry completion architecture has been implemented in several hydraulically stimulated resource plays across North America. The objective is to understand whether the innate properties of the rock and what we can diagnose about how it hydraulically fractures can inform the question of applicability of single-versus multi-point completion designs. Wells were treated using a single-point entry design in the Montney and the Duvernay and an assessment of well performance was carried out. Multiple diagnostic pads have been carried out over several years in both formations, including microseismic and geochemical fingerprint data allowing for a general characterization of the gross geometry and connectivity. Initial results from a fiber are available in the Montney with a single point completion design. The fracture diagnostic data was compiled and described in the context of the nine main sub-surface controls on the connectivity. In the Montney, it is relatively clear how completion intensity changes, like stage length, in single-point entry wells change the production performance outcome. In the Duvernay, there is significantly more uncertainty. This contrast contributed to the decision to treat several follow-up pads in the Montney via a single-point entry design, whereas a multi-point plug and perf completion is preferred for the Duvernay wells. Costs and stage isolation are considerations, but one other contributing explanation is that the dominantly planar fracture geometry in the Montney enables each stage to contribute proportionally, thus ensuring the stimulation distribution effectiveness from the near-to the far-field. The dry-gas area of the Montney is very stiff, with an absence of natural fractures, a paucity of faults, no containment issues and no significant frac barriers. Conversely, in the Duvernay, the inherent complexity in the fracture geometry complicates the stimulation distribution effectiveness in the far-field. Furthermore, the lower mobility of a liquids-rich hydrocarbon system probably benefits from the potentially tighter frac spacing, possible in a multi-cluster design, even with a probable increase in non-uniformity over single-point. It is hypothesized that in formations that develop complex fracture geometries, ‘putting all your eggs in one basket’ with a single-point entry design, needs to be assessed along with the other value drivers for the well architecture selection.
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