控制化学添加剂释放的工程微泡及其在提高油井水泥完整性中的应用

Elizabeth Q. Contreras, Kenneth D. Johnson, Diana K. Rasner, Carl J. Thaemlitz
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引用次数: 1

摘要

在石油和天然气行业,基于封装的系统在化学添加剂保存、小分子释放、颗粒输送和自密封材料等应用中很受关注。许多方法被用来封装相关的化学添加剂,以控制内容物的释放,如聚合物囊泡、无机壳和介孔材料。在这里,一个新的系统,用于控制释放封装货物,利用透水聚合物壳壁的工程特点显示。在注入水泥时,需要大量的添加剂来满足各种功能需求,以适应多种不同的井眼条件。然而,使用大量的某些添加剂可能会产生不利影响,在表面条件下会使泥浆不稳定。使用囊泡,水泥添加剂无需改性即可输送。通过这种方式,由若干囊泡和各种包封剂组成的配方的可能性有助于在固井方面取得重大进展。通过使用稠度计获得的测量结果以及油田设备的测试,证明了该技术在水泥设计中的应用。实验结果表明,在3000 psi的两种不同温度下,基本的水泥浆设计通过测量粘度变化和增稠时间来响应封装剂的释放。例如,在环境压力下,可以通过延迟释放助燃剂来控制浆料的增稠时间。当温度升高到100°F和300°F时,封装的添加剂以更高的扩散速率被挤压,从而导致更快的增稠时间。在所有情况下,观察到囊泡在水泥凝块中保持完整,并对水泥凝块的力学性能有重要贡献。囊泡的双重性能源于其独特的特性,如水性岩心、壁厚和渗透性、化学成分和壳壁的机械完整性。在这里,壳壁采用高分子量聚合物材料设计,在被封装的化学添加剂释放后,空泡继续赋予水泥有益的机械性能,如抗压强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Engineered Vesicles for the Controlled Release of Chemical Additives and Application for Enhanced Oil Well Cement Integrity
Encapsulation-based systems are of interest in the oil and gas industry in applications such as chemical additive preservation, small molecule release, particle delivery, and self-sealing materials. Many methods are used to encapsulate relevant chemical additives for the controlled release of contents like polymeric vesicles, inorganic shells, and mesoporous materials. Here a novel system for the controlled release of encapsulated cargo that utilizes engineered features of permeable polymeric shell walls is shown. When placing cement, a multitude of additives in large quantities are needed to meet a variety of functional needs that are suitable for the many diverse wellbore conditions. However, using large amounts of certain additives could have adverse effects which can destabilize the slurry at surface conditions. Using vesicles, cement additives are delivered without requiring modification. In this way, the possibilities of formulations comprised of a number of vesicles with various encapsulants lends to significant advancements in cementing. Applications in cement design is demonstrated from measurements obtained using the consistometer as well as testing from oilfield equipment. Experimental results show that a basic cement slurry design responds to the release of an encapsulant by the measure of change in viscosity and thickening times at two different temperatures at 3,000 psi. For example, the thickening time of a slurry can be controlled with the delayed release of an accelerant, at ambient pressure. With an increase in temperature up to 100 °F and 300 °F, the encapsulated additive is squeezed at a higher diffusion rate, resulting in a faster thickening time. In all cases, the vesicles are observed to remain intact within the set cement and contribute significantly to the mechanical properties of set cement. Vesicle dual performance stems from unique characteristics, such as an aqueous core, wall thickness and permeability, chemical composition, and mechanical integrity of the shell wall. Here, the shell walls are engineered with high molecular weight polymeric material that upon release of the encapsulated chemical additives, the emptied vesicles continue to impart beneficial mechanical properties to the set cement, such as compression strength.
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