Environmentally Friendly Nanoshale Inhibitor Water-Based Drilling Fluids

Day 2 Mon, February 20, 2023 Pub Date : 2023-03-07 DOI:10.2118/213755-ms

H. S. Alqahtani, Mohammed K. Arfaj, M. Alhassni, M. A. Alotaibi

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Abstract

Metal Oxide Nanoparticles (MONPs) comparison has been used for the first time as Nanoshale inhibitors in water-Based Drilling Fluids. These Nanoshale inhibitors used in this study eliminate the use of toxic high potassium chloride (KCl) concentration in shale drilling operations and environmentally friendly with reducing the cost of drilling fluid treatment and waste disposal. The dispersion test of Nanoshale inhibitors based on MONPs with shale samples revealed to be an effective candidate with significant interaction reduction between the drilling fluids and the shale particles compared without these Nanoshale inhibitors samples. This new Nanoshale inhibitor maintains the integrity of the cuttings and minimize the interaction of fluids with shale sections during the rolling test. Zeta potential (ZP) has been conducted to determine the charge of shale and nanoparticles samples. Although the application of nanoparticles to improve the performance of conventional water-based drilling fluid was studied by researchers, it is the novelty of this research to eliminate use of KCl and to develop the new generation of Nanoshale water-based drilling fluid with economical consideration and lower environmental impact.

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环境友好型纳米页岩抑制剂水基钻井液

金属氧化物纳米颗粒(MONPs)首次被用作水基钻井液中的纳米页岩抑制剂。研究中使用的这些纳米页岩抑制剂消除了页岩钻井作业中有毒的高浓度氯化钾(KCl)的使用，并且环境友好，降低了钻井液处理和废物处理的成本。基于MONPs的纳米页岩抑制剂与页岩样品的分散测试表明，与没有这些纳米页岩抑制剂样品相比，钻井液与页岩颗粒之间的相互作用显著减少，是一种有效的候选材料。这种新型纳米页岩抑制剂保持了岩屑的完整性，并在滚动测试过程中最大限度地减少了流体与页岩段的相互作用。利用Zeta电位(ZP)测定了页岩和纳米颗粒样品的电荷。虽然已有研究人员研究了应用纳米颗粒改善常规水基钻井液的性能，但消除氯化钾的使用，开发经济、低环境影响的新一代纳米页岩水基钻井液是本研究的新颖之处。

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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Day 2 Mon, February 20, 2023

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