Montney致密粉砂岩储层桥塞射孔、球座压裂和精确压裂方法的全井性能综述

B. Yadali Jamaloei, Robert T. Burstall, A. Nakhwa
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引用次数: 1

摘要

Montney储层是北美最多产的非常规多层干、富液气藏之一。在Montney地区,压裂方法和压裂液的类型对水相圈闭、套管变形和油井性能有重大影响。不同的压裂方法(桥塞射孔/桥塞射孔/带球/球座射孔/单点射孔)和流体(滑溜水/混合/油基/注入/泡沫)已经在4000多口Montney井中进行了测试,以找到适合不同储层质量和流体窗口的最佳压裂方法和流体,并最大限度地减少水相圈闭和套管变形。由于存在一些局限性,以往对Montney地区压裂方法性能的研究并不能代表对这些方法的全面评估,包括:(1)样本量小;(2)专注于压裂(方法/流体)的特定方面,范围有限;(3)依赖于提供有限地下洞察的数据分析方法;(4)由于真实垂直深度(TVD)、地质性质、流体窗口、已完成横向长度等显著区域差异,使用不同的非结构化和不可信的数据,产生误导性的结果(例如,最佳压裂方法/流体);压裂方法/压裂液/压裂日期,以及压降率管理策略。本研究根据TVD、地质性质、流体窗口、已完成的水平段长度、压裂方法/流体/日期和压降策略,对4000多口Montney井进行了严格的聚类,消除了这些限制。这种聚类技术可以通过比较每口井的产量(通过支撑剂吨位、流体体积和完井长度进行标准化)与使用不同压裂方法但具有相似地质和流体窗口的邻井的产量来隔离每种压裂方法的影响。在TVD和压裂液/压裂日期相似的情况下,采用精确定位压裂完成的井优于采用球、座、桥塞和射孔压裂完成的井。然而,使用球座、桥塞和射孔方法完成的井,其性能优于邻井的精确井,要么:(1)比精确井早1到4年进行压裂,要么(2)与精确井中使用的滑溜水相比,使用了活化油基流体、混合流体和活化滑溜水,这表明由于使用了滑溜水,这些精确井中的水相圈闭更为严重。以前的研究往往倾向于一种特定的压裂方法或流体,而没有强调压裂方法/流体类型、完井日期(区域枯竭)、储层性质和流体动力学之间复杂的相互作用。这种聚类技术显示了如何在包含数千口井的不同数据集中进行适当的数据结构,这些井在地质性质、流体窗口、压裂方法/流体、区域枯竭和降压策略方面存在显著差异,通过隔离任何给定参数(例如压裂方法、枯竭)的影响,可以在整个区块中进行一致的井性能比较,这些参数被认为对压裂设计和油田开发规划更为重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Play-Wide Performance Review of Plug and Perf, Ball and Seat, and Pinpoint Fracturing Methods in the Montney Tight Siltstone Reservoir
The Montney reservoir is one of the most prolific unconventional multi-stacked dry and liquid-rich gas plays in North America. The type of fracturing method and fluid has a significant impact on water-phase trapping, casing deformation, and well performance in the Montney. Different fracturing methods (plug and perf/plug and perf with ball/ball and seat/single-entry pinpoint) and fluids (slickwater/hybrid/oil-based/energized/foam) have been tested in 4000+ Montney wells to find optimal fracturing method and fluid for different reservoir qualities and fluid windows and to minimize water-phase trapping and casing deformation. The previous studies reviewing the performance of fracturing methods in Montney do not represent a holistic evaluation of these methods, due to some limitations, including: (1) Using a small sample size, (2) Having a limited scope by focusing on a specific aspect of fracturing (method/fluid), (3) Relying on data analytics approaches that offer limited subsurface insight, and (4) Generating misleading results (e.g., on optimum fracturing method/fluid) through using disparate data that are unstructured and untrustworthy due to significant regional variation in true vertical depth (TVD), geological properties, fluid windows, completed lateral length, fracturing method/fluid/date, and drawdown rate management strategy. The present study eliminates these limitations by rigorously clustering the 4000+ Montney wells based on the TVD, geological properties, fluid window, completed lateral length, fracturing method/fluid/date, and drawdown strategy. This clustering technique allows for isolating the effect of each fracturing method by comparing each well's production (normalized by proppant tonnage, fluid volume, and completed length) to that of its offsets that use different fracturing methods but possess similar geology and fluid window. With similar TVD and fracturing fluid/date, wells completed with pinpoint fracturing outperform their offsets completed with ball and seat and plug and perf fracturing. However, wells completed with ball and seat and plug and perf methods that outperform their offset pinpoint wells have either: (1) Been fractured 1 to 4 years earlier than pinpoint wells and/or (2) Used energized oil-based fluid, hybrid fluid, and energized slickwater versus slickwater used in pinpoint offsets, suggesting that the water-phase trapping is more severe in these pinpoint wells due to the use of slickwater. Previous studies often favored one specific fracturing method or fluid without highlighting these complex interplays between the type of fracturing method/fluid, completion date (regional depletion), and the reservoir properties and hydrodynamics. This clustering technique shows how proper data structuring in disparate datasets containing thousands of wells with significant variations in geological properties, fluid windows, fracturing method/fluid, regional depletion, and drawdown strategy permits a consistent well performance comparison across a play by isolating the impact of any given parameter (e.g., fracturing methods, depletion) that is deemed more crucial to fracturing design and field development planning.
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