Effect of hybrid water-based mud on the improvement of wellbore stability: Kolosh Formation in Iraqi Kurdistan Region

IF 2.6 Q3 ENERGY & FUELS
Barham S. Mahmmud , Sarhad A. Farkha , Pshtiwan T.M. Jaf , Shirzad B. Nazhat , Sarwer A. Salam
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引用次数: 2

Abstract

Most important aspect of drilling clay-rich formations is preventing the hydration and dispersion. Oil based drilling muds (OBM) have historically been the first choice for drilling these kinds of formations, however the usage of the OBM is currently forbidden in drilling operation due to environmental issues. As an alternative, many inhibitive water-based muds were proposed. This paper describes the experimental work carried out on ten shale samples to evaluate stabilization of shale and clay-fluid interactions. After mineralogical analysis of shale samples, swelling and hot-rolling dispersion test were conducted using fresh water, polyamine, sodium silicate and oil base mud. Mineralogical analysis results showed that the cutting samples of 3, 4, 5, 6 and 7 have the highest clay content. Cation exchange capacity (CEC) results indicated that the shale sample with high concentration of smectite recorded the highest CEC value as it has the ability to absorb water into its inter-layers and exchange cations. When shale samples were tested in linear Swell meter, it is expressed the lower swelling percentage for oil base mud and maximum for fresh water. However, it was found out that both sodium silicate and polyamine mud systems yield the same performances. Furthermore, dispersion results showed that the shale recovery percentage increased from 16.3% to 56.2% when sodium silicate mud was used instead of polyamine mud. For the fresh water and oil base mud, results confirmed findings of linear swelling meter test, which is the lowest recovery for the fresh water (6.7%), and maximum recovery for the OBM (109.9%). The improved swelling inhibition suggested that sodium silicate mud could be effectively used to control wellbore instability while drilling through the Kolosh Formation .

混合水基泥浆对提高井筒稳定性的影响:伊拉克库尔德斯坦地区Kolosh地层
钻井富粘土地层最重要的方面是防止水化和分散。油基钻井泥浆(OBM)一直是钻井此类地层的首选,但由于环境问题,OBM目前在钻井作业中被禁止使用。作为替代方案,人们提出了许多抑制性水基泥浆。本文介绍了在10个页岩样品上进行的实验工作,以评估页岩和粘土-流体相互作用的稳定性。对页岩样品进行矿物学分析后,分别用淡水、多胺、水玻璃和油基泥浆进行溶胀和热轧分散试验。矿物学分析结果表明,3、4、5、6、7号切割样品粘土含量最高。阳离子交换容量(CEC)结果表明,高浓度蒙脱石页岩样品的CEC值最高,因为其具有将水吸收到层间并交换阳离子的能力。用线性膨胀仪测试页岩样品时,油基泥浆的膨胀率较低,淡水的膨胀率最大。然而,人们发现水玻璃和多胺泥浆体系的性能是相同的。分散试验结果表明,硅酸钠泥浆代替多胺泥浆,页岩采收率由16.3%提高到56.2%。对于淡水和油基泥浆,线性膨胀仪测试结果证实,淡水的采收率最低(6.7%),OBM的采收率最高(109.9%)。在Kolosh地层钻井过程中,硅酸钠泥浆可以有效地控制井眼不稳定。
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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