评估纳米颗粒对重质和轻质井筒水泥浆的影响

Vigleik Nicolai Kjeldal , Jarrett Wise , Geir Hareland , Mohammed F. Al Dushaishi
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引用次数: 0

摘要

在油气井井筒套管周围进行固井可带来多种益处,如适当的区域隔离、套管支撑和防止流体迁移。井筒水泥是完井和废弃过程的重要组成部分。然而,井筒水泥也有一些缺点,如形成微孔或失去区域隔离。纳米颗粒(NPs)已被证明可改善井筒钻井液的特性,但尚未广泛用于水泥。本文旨在说明 NPs 浓度对稠化时间、粘度和流体流失特性等井筒水泥特性的影响。在重质水泥中添加纳米重晶石和磁铁矿,在轻质水泥中添加膨润土,添加量分别为水泥重量的 1%、3% 和 5%,以测试由此产生的水泥特性。结果表明,除 5% 的磁铁矿外,所有浓度的纳米颗粒的稠化时间都会增加。对于所有浓度的纳米粒子,两种水泥混合物的屈服应力都有所增加。重质水泥中所有浓度的纳米颗粒的粘度都高于对照组,而轻质水泥的粘度没有变化。随着纳米颗粒浓度的增加,重质水泥和轻质水泥的流体损失都普遍减少。这项工作的结果与文献中的结果相结合表明,添加重晶石、磁铁矿或膨润土纳米粒子可以增强井筒水泥的性能,而不会降低泵送性和固化时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of nanoparticle effect on heavy and light wellbore cement slurries

Cementing around the casing in oil and gas wellbores provides multiple benefits such as proper zonal isolation, casing support, and prevention of fluid migration. Wellbore cement is an important part of the completion and abandonment process. However, wellbore cement has some drawbacks such as micro-annuli formation or loss of zonal isolation. Nanoparticles (NPs) have been shown to improve the characteristics of wellbore drilling fluids but have not been used extensively in cement. The objective of this paper is to show the effect of NPs’ concentration on wellbore cement characteristics such as thickening time, viscosity, and fluid loss properties. Nanoparticle barite and magnetite were added to heavy cement and bentonite was added to light cement in intervals of 1, 3, and 5 % by weight of cement to test the resulting cement characteristics. The results showed that the thickening time increased for all concentrations of nanoparticles, except for the 5 % magnetite. The resulting yield stress of both cement mixtures increased for all concentrations of nanoparticles. The viscosity for all concentrations of nanoparticles in the heavy cement was greater than the control case, while no change in viscosity was seen with the light cement. Fluid loss generally decreased by increasing nanoparticle concentrations for both heavy and light cement. The results of this work in combination with results from the literature show that the addition of barite, magnetite, or bentonite nanoparticles can enhance wellbore cement without diminishing the pumpability and curing time.

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