水基钻井液在井强中的流变性能研究(基于氧化铝纳米颗粒)

A. Alihosseini, A. H. Zadeh, M. Monajjemi, Mahdi Nazary Sarem
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摘要

井筒稳定性是钻井行业面临的难题之一。页岩地层是钻井过程中最棘手的岩石之一,因为这种岩石的渗透率非常低,孔隙非常小(纳米级)。在这项研究中,评估了氧化铝纳米颗粒在水基泥浆(WBM)中的生存能力。实验研究了氧化铝纳米颗粒(α和γ)作为泥浆添加剂对水基钻井液流变性能的影响。氧化铝纳米颗粒具有高抗压强度、高硬度、高导热性等特定的化学和物理性质,这些性质改善了水基钻井液的流变性能,减少了滤失,符合环保法规。实验结果表明,氧化铝纳米颗粒改善了水基钻井液的屈服点(YP)、凝胶强度(gel 10s、gel 10min)等流变性能,可用于改善钻井液的流变性能和过滤性能。实验数据表明,氧化铝纳米颗粒作为纳米添加剂,具有热稳定性、增强流变性、控制滤失和润滑等优异性能。对页岩储层进行有效封堵,显著提高储层承压能力。此外,与空白样品相比,氧化铝纳米颗粒将60%的API/HPHT失液减少了60%。最显著的特点是,纳米流体使页岩的完整性比空白样品提高了60% ~ 70%。CT扫描数据实验表明,α -氧化铝和γ -氧化铝基的纳米钻井液样品形成的滤饼具有更强的黏结性,在井上形成一个完整的滤饼。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study of Rheological Properties of Water-based Drilling Fluid in the Well Strength (Using Alumina Nanoparticles)
Abstract Wellbore stability is of one of challenges in drilling industry. Shale formation is of one of the most problematic rocks during drilling because the rock has very low permeability and very small pores (nanometers). In this study, the viability of the Alumina nanoparticles in Water-Based Mud (WBM) is assessed. The effect of Alumina nanoparticles (alpha and gamma) as mud additives to improve the rheological properties in water- base drilling fluids are experimentally investigated. The Alumina nanoparticles has specific chemical and physical properties such as: high compressive strength, high hardness, high thermal conductivity, these properties improve the rheological properties of water base drilling fluid, reduce filtration loss and meet environmental regulations. The results of experiments indicated that Alumina nanoparticle are improving rheological properties such as: yield point (YP), gel strength (GEL 10s, Gel 10min) of water- base drilling, that can be used to improve the rheological and filtration properties of drilling fluids. The experimental data showed that, Alumina nanoparticle as a Nano additive, possessed excellent properties such as thermal stability, rheology enhancing, fluid loss control and lubrication. Also, it could plug the shale formation effectively and improve the pressure bearing capability of formation significantly. In addition, Alumina nanoparticles reduced 60% API/HPHT fluid loss by 60% in comparison with blank sample. The most striking feature is that shale integrity improved by Nano fluid between 60 and 70 percent in comparison with blank sample. Also, data experimental of CT Scan are shown that the filter cakes formed by each of the Nano-drilling fluid samples with alpha alumina and gamma alumina base are more cohesive and cause an integrated filter cake on the well.
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