Consistency Under Applied Pressure Test CAPT - A Novel Method for Evaluating Pressure Effect on the Gel Time of Thermosetting Resin

Dingwei Zhu, Svein Normann, Minli Xie, John R. Haugen
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Abstract

Thermosetting resin is gaining more acceptances in Plug and Abandonment due to its excellent mechanical properties after set and ability for placement in locations cement cannot reach. A thorough understanding of its curing behavior such as gel time is essential to ensure safe placement and a good seal. This paper investigates the pressure-sensitive gelation behavior of polymer resin under in-situ conditions, and the pressure effect on the gel time of thermosetting resin was evaluated. An innovative assessment methodology named CAPT (Consistency under Applied Pressure Test) was created to assess the curing process of thermoset resins in a pressurized consistometer. A series of resin samples were tested at temperatures ranging from ambient to 120°C with applied pressures up to 10,000 psi. The consistency was initially used to indicate the gel structure development of the resin while it was gelling. Based on the consistency data, the relationship between applied pressure and gel time of resins was studied and a new approach of modeling the curing process with the influence factor of pressure was proposed. The primary observation was the confirmation that the gelation process of thermosetting resin under applied pressure was faster than that under atmospheric pressure. However, the gel time had big variations. The pressure sensitivity mainly depended on the initiators and it was only partly dependent on the temperature. There was a threshold value for the pressure effect on the gel time. Below the threshold, the gel time only decreased by around 5%. Above the threshold, the pressure effect was much larger where the gel time decreased by 20% - 30%. This could be mainly attributed to the thermodynamic effect caused by pressure accelerating the polymerization process, resulting in a shorter gel time. Meanwhile, these results help explain why the curing behavior of thermosetting resin placed underground where high pressure is encountered often differs from the laboratory-predicted performance. Besides indicating the relative strength development, consistency analysis could also be used to assess the pressure effect on the gelation process of a resin sample in down-hole operations with applied pressures. Thus, CAPT would be more suitable than a conventional reactivity test to propose a new approach of modeling the gel time of thermosetting resin systems with the influence factor of pressure. CAPT is a novel method to accurately evaluate the curing process of thermosetting resin and indicate its relative strength development. This helps engineers reach a good balance between designing proper operations and preserving mechanical properties in the plug and abandonment process.
应用压力下的一致性测试CAPT——一种评估压力对热固性树脂凝胶时间影响的新方法
热固性树脂在封固后具有优异的力学性能,并且能够在水泥无法到达的位置进行充填,因此在封固和弃井作业中越来越被接受。彻底了解其固化行为(如凝胶时间)对于确保安全放置和良好密封至关重要。研究了原位条件下聚合物树脂的压敏凝胶行为,并评价了压力对热固性树脂凝胶时间的影响。发明了一种名为CAPT(应用压力测试下的一致性)的创新评估方法,用于评估热固性树脂在压力浓度计中的固化过程。一系列树脂样品在环境温度到120°C的温度范围内进行了测试,施加的压力高达10,000 psi。稠度最初用于指示树脂凝胶化时凝胶结构的发展。在稠度数据的基础上,研究了施加压力与树脂凝胶时间的关系,提出了一种考虑压力影响因素的固化过程建模新方法。初步观察证实了热固性树脂在施加压力下的凝胶化过程比在常压下的凝胶化过程要快。但凝胶时间变化较大。压力敏感性主要取决于引发剂,部分取决于温度。压力对凝胶时间的影响有一个阈值。低于阈值,凝胶时间仅减少约5%。在阈值以上,压力效应更大,凝胶时间减少20% - 30%。这主要是由于压力引起的热力学效应加速了聚合过程,导致凝胶时间缩短。同时,这些结果有助于解释为什么热固性树脂放置在地下遇到高压时的固化行为经常与实验室预测的性能不同。除了指示相对强度发展之外,一致性分析还可以用于评估压力对树脂样品在施加压力的井下作业中凝胶化过程的影响。因此,CAPT将比传统的反应性测试更适合提出一种新的方法来模拟热固性树脂体系的凝胶时间与压力的影响因素。CAPT是一种准确评价热固性树脂固化过程和反映其相对强度发展的新方法。这有助于工程师在设计适当的操作和保持桥塞和弃井过程中的机械性能之间取得良好的平衡。
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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