Degradable Materials for Multi-Stage Stimulation

Hui-lin Tu, I. Aviles, M. Dardis
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Abstract

Degradable plug-and-perf systems made of degradable alloys and polymers are being used extensively for multi-stage stimulation (MSS). This paper reviews the degradable materials available in the market, including degradable magnesium and aluminum alloys and degradable plastics and elastomers, compares their degradation mechanisms, and discusses the factors affecting their degradation behavior. A series of degradable aluminum alloys with good mechanical properties, and a tunable range of degradation rates were developed in Schlumberger for MSS applications. Key parameters, such as material formulation, temperature, and hydrostatic pressure are used to control the degradation behavior of these degradable alloys. Predictive models are established to predict the degradation time window under a broad range of downhole conditions for improved completions job planning. Comprehensive testing has been done to verify the performance of the materials in the simulated downhole conditions. In addition, field operation results are available to validate the performance of the degradable fracturing plugs made of these degradable alloys. Degradable materials enable degradable fracturing plug applications and eliminate the need for mechanical intervention. They receive more and more attention in the MSS market. We will see more rapid growth of their applications in the coming years.
多级刺激的可降解材料
由可降解合金和聚合物制成的可降解桥塞射孔系统被广泛用于多级增产(MSS)。本文综述了目前市场上可降解材料,包括可降解镁合金和可降解塑料及弹性体,比较了它们的降解机理,并讨论了影响其降解行为的因素。斯伦贝谢为MSS应用开发了一系列具有良好力学性能和可调降解率的可降解铝合金。关键参数,如材料配方,温度和静水压力被用来控制这些可降解合金的降解行为。建立了预测模型,以预测各种井下条件下的退化时间窗口,从而改进完井作业计划。为了验证材料在模拟井下条件下的性能,进行了全面的测试。此外,现场作业结果可用于验证由这些可降解合金制成的可降解压裂桥塞的性能。可降解材料可降解压裂桥塞,无需机械干预。它们越来越受到MSS市场的关注。我们将在未来几年看到其应用的快速增长。
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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