Experimental investigation of rheological behaviour and stability of mud system using novel image processing application in presence of activated carbon and silica-coated iron oxide nanoparticles

IF 3.674 4区 工程技术 Q1 Engineering
Shaine Mohammadali Lalji, Syed Imran Ali, Rezwan Ullah, Syed Muhammad Ali, Yassar Kamal Zia, Rizwan Ghauri, Abrar Ahmed
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引用次数: 0

Abstract

The success of any drilling activity is mainly dependent on the behaviour of the drilling fluid. These fluids not only act as a primary barrier but are also responsible for maintaining hole integrity, carrying and lifting the drilled cutting and preventing the fluid loss. All these characteristics can be achieved by the help of desired rheological properties. Silica-coated iron oxide nanoparticles (0.25 and 0.5 wt. %) and activated carbon (0.25 and 0.5 wt. %) are being utilised in this study to formulate stable and high-performance water-base drilling fluids. The rheological characteristics of the mud system were investigated using different rheological parameters that consist of plastic viscosity, yield point, apparent viscosity and gel strength. On the other hand, the stability of the mud systems was observed with the help of intensity profile plots and interactive 3D surface plots using image processing technique. It is a novel method of spotting the changes in mud stability under no circulation condition. The results of the study reveal that all the muds showed pseudo-plastic shear thinning behaviour with flow index < 1. No substantial changes in mud density were recorded after the addition of these particles. The maximum mud weight of 8.8 ppg was recorded in activated carbon samples. All the rheological properties were obtained at ambient conditions of 27 °C. It was observed that samples 1 and 4 demonstrate rheological characteristics in the desired operating range with optimum yield point-to-plastic viscosity ratio in range of 0.75–1 \(\frac{{{\raise0.7ex\hbox{${lb}$} \!\mathord{\left/ {\vphantom {{lb} {100ft^{2} }}}\right.\kern-0pt} \!\lower0.7ex\hbox{${100ft^{2} }$}}}}{cP}\). This ratio indicates that the concentration of both the particles is the key factor in achieving desire cutting carrying capacity. Moreover, according to intensity profile plots for the determination of mud stability, the sample with least concentration of activated carbon was the most stable sample. No substantial change in stability was recorded in that sample after two days of experimentation. On the contrary, silica-coated iron oxide nanoparticles start to de-phase on Day 1, and separation was quite visible on Day 2. On Day 5 of the stability test, it was perceived with the help of 3D surface plots that each sample was undergoing either solid settling phenomenon or dephasing. Based on the findings of the study, it can be concluded that activated carbon because of its high surface area and nontoxic behaviour can act as an efficient additive in terms of maintaining the rheological properties and stability of water-based mud system.

新型图像处理应用于活性炭和二氧化硅包覆氧化铁纳米颗粒存在下泥浆体系流变行为和稳定性的实验研究
任何钻井活动的成功与否主要取决于钻井液的性能。这些流体不仅起到主要屏障的作用,而且还负责保持孔的完整性、承载和提升钻孔切割以及防止流体损失。所有这些特性都可以通过所需的流变特性来实现。二氧化硅包覆的氧化铁纳米颗粒(0.25和0.5重量%)和活性炭(0.25和0.5%重量%)在本研究中被用于配制稳定和高性能的水基钻井液。采用不同的流变参数,包括塑性粘度、屈服点、表观粘度和凝胶强度,研究了泥浆体系的流变特性。另一方面,利用图像处理技术,借助强度剖面图和交互式三维表面图,观察了泥浆系统的稳定性。这是一种在无循环条件下发现泥浆稳定性变化的新方法。研究结果表明,所有泥浆均表现出具有流动指数的拟塑性剪切减薄行为 <; 1.添加这些颗粒后,泥浆密度没有显著变化。活性炭样品中记录的最大泥浆重量为8.8ppg。所有流变特性都是在27°C的环境条件下获得的。据观察,样品1和4在所需的操作范围内表现出流变特性,最佳屈服点与塑性粘度比在0.75–1的范围内(\frac{\raise0.7ex\hbox{${lb}$}!\mathord{\left/{\vphantom{100ft^{2}}}}}\right。\kern-0pt}\!\lower0.7ex\hpox{${100ft^{2}$}}}}{cP})。这一比例表明,两种颗粒的浓度是实现所需切削承载能力的关键因素。此外,根据测定泥浆稳定性的强度剖面图,活性炭浓度最低的样品是最稳定的样品。在两天的实验之后,在该样品中没有记录到稳定性的实质性变化。相反,二氧化硅包覆的氧化铁纳米颗粒在第1天开始脱相,并且在第2天非常明显地分离。在稳定性测试的第5天,在3D表面图的帮助下,可以感觉到每个样品都在经历固体沉降现象或脱相。根据研究结果,可以得出结论,活性炭由于其高表面积和无毒性能,可以作为一种有效的添加剂,保持水基泥浆系统的流变性能和稳定性。
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来源期刊
Applied Nanoscience
Applied Nanoscience Materials Science-Materials Science (miscellaneous)
CiteScore
7.10
自引率
0.00%
发文量
430
期刊介绍: Applied Nanoscience is a hybrid journal that publishes original articles about state of the art nanoscience and the application of emerging nanotechnologies to areas fundamental to building technologically advanced and sustainable civilization, including areas as diverse as water science, advanced materials, energy, electronics, environmental science and medicine. The journal accepts original and review articles as well as book reviews for publication. All the manuscripts are single-blind peer-reviewed for scientific quality and acceptance.
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