利用聚酰胺囊泡实现井筒完整性和二氧化碳封存

Elizabeth Q. Contreras
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引用次数: 2

摘要

一种新型固井添加剂经过化学设计,可以与对水泥起拮抗作用的地层流体发生反应。工程聚合物胶囊内的封装剂与井下的对抗气体(如二氧化碳)发生反应,形成一种更无害、更有益的材料。嵌入水泥中的聚合物胶囊具有半透壳,允许流体渗透并与封装剂反应,产生有益的副产品,如方解石和二氧化碳中的水。通过热重分析(TGA)和油田设备上的其他测试,验证了封装剂和拮抗剂气体CO2之间的反应性。当固井失效时,套管中套管事件(CCA)会导致二氧化碳等对抗性气体迁移到地面。在水泥失效等情况下,聚酰胺囊泡内的添加剂会通过化学和物理方式与气体迁移事件产生的二氧化碳交叉。聚酰胺添加剂的形状独特,用途广泛。此外,由于这种材料是聚合物,它赋予水泥诸如弹性等有益的机械性能。这种聚合物呈囊泡状,可用于制造新型水泥添加剂,例如提高油井水泥的完整性和可持续性。数据还显示方解石的生产由大部分材料组成。该技术适用于二氧化碳固定和自愈水泥使用反应性聚合物囊泡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wellbore Integrity and CO2 Sequestration Using Polyaramide Vesicles
A new cementing additive is chemically engineered to react with formation fluids that act antagonistically towards cement. Engineered polymer capsules house encapsulants to react with antagonistic gases downhole like CO2 to form a more benign and beneficial material. Embedded in cement, the polymer capsules with semi-permeable shells allow fluids to permeate and react with encapsulants to produce beneficial byproducts, such as calcite and water from CO2. Reactivity between the encapsulant and antagonist gas CO2 is demonstrated using thermal gravimetric analysis (TGA) and other tests from oilfield equipment. When cement fails, casing-in-casing events, or CCA, causes antagonistic gases like CO2 to migrate to the surface. Embedded in the cement for such moments such as cement failure, additives housed within polyaramide vesicles chemically and physically intersect CO2 from gas migration events. The shape of the polyaramide additive is unique and versatile. Furthermore, because the material is polymeric, it imparts beneficial mechanical properties like elasticity to cement. A vesicle in form, this polymer allows the manufacturing of new cement additives for applications such as increasing the integrity and sustainability of oil well cement. Data also shows production of calcite by the bulk of the material. This technology applies to CO2 fixation and self-healing cement using reactive polymer vesicles.
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