Driving Completion Execution Improvements Through Detailed Analysis of Acoustic Imaging and Stimulation Data

Day 1 Tue, February 01, 2022 Pub Date : 2022-01-25 DOI:10.2118/209184-ms

Mark Watson, M. Schinnour, D. Cramer, M. White

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引用次数: 3

Abstract

This study documents an ongoing analysis of frac plug integrity and inter-cluster treatment distribution using multiple datasets. It includes post-treatment acoustic imaging data from three Montney pads, in which the dimensions of 3538 perforations and casing wear patterns at 150 frac plug setting locations were determined. The analysis process features an iterative approach to improving execution performance during field appraisal – execute the design, measure performance, identify failures, and then implement an improved design. This approach identified execution performance issues that would have otherwise been undetected and provided insights that were used to inform manufacturers of necessary design improvements. The fiber optic and acoustic imaging programs for Pad 1 indicated loss of frac plug isolation in 70% of stages. Acoustic imaging data gathered from Pad 2 indicated loss of frac plug isolation in 57.5% of stages. Additionally, the measured diameters of eroded perforations were smaller than the expected unstimulated diameter in 48% of measurements. This finding revealed a discrepancy in the perforation-charge manufacturer's published performance information which led to unintended treatment behavior. Building on Pad 2 results, multiple vendors were engaged to provide engineered solutions to the issues identified through acoustic imaging campaigns for potential implementation on future wells. The findings from this exercise confirmed the underperformance of dissolvable frac plug technology and the importance of verifying perforation performance by conducting surface tests that are representative of field conditions. The outcome led to modified perforation charges and dissolvable frac plugs for trial on Pad 3. Outputs from the analysis performed on Pad 3 revealed improved performance, with confinement issues identified in only 28% of the total stages. Initial unstimulated perforation diameters were within 3.59% of the pre-job surface validation tests. Improvements contributed to better treatment conformance relative to Pad 1 and Pad 2.

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通过声学成像和增产数据的详细分析，推动完井执行效率的提高

该研究记录了使用多个数据集对压裂桥塞完整性和簇间处理分布的持续分析。它包括来自三个Montney垫的处理后声学成像数据，其中确定了150个压裂塞坐封位置的3538个射孔的尺寸和套管磨损模式。分析过程的特点是在现场评估期间采用迭代方法来改进执行性能——执行设计，测量性能，识别故障，然后实现改进的设计。这种方法确定了执行性能问题，否则就不会被发现，并提供了用于通知制造商必要的设计改进的见解。第1区块的光纤和声学成像程序显示，70%的压裂段都没有实现压裂桥塞隔离。从Pad 2收集的声学成像数据显示，57.5%的压裂段压裂桥塞隔离失败。此外，测量到的侵蚀射孔直径比预期的未压裂射孔直径小48%。这一发现揭示了射孔药制造商公布的性能信息存在差异，从而导致了意外的处理行为。在Pad 2的基础上，多家供应商参与了声学成像活动，为未来的井提供工程解决方案。该试验的结果证实了可溶解压裂桥塞技术的性能不佳，以及通过进行代表现场条件的地面测试来验证射孔性能的重要性。研究结果改进了射孔药和可溶解压裂桥塞，并在第3区块进行了试验。在Pad 3上进行的分析结果显示，性能得到了改善，仅在28%的总级中发现了约束问题。初始未增产射孔直径与作业前地面验证测试的误差在3.59%以内。与Pad 1和Pad 2相比，改善有助于提高治疗依从性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Day 1 Tue, February 01, 2022

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