Enhanced Rheological and Filtration Properties of Water-Based Mud Using Iron Oxide and Polyanionic Cellulose Nanoparticles

Day 2 Tue, August 02, 2022 Pub Date : 2022-08-01 DOI:10.2118/211924-ms

Soroush Kachoyan, Shaikh Nihaal, J. Oseh, Mohd Noorul Anam, A. Gbadamosi, A. Agi, R. Junin

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引用次数: 1

Abstract

The unstable wellbore created by the infiltration of drilling fluids into the reservoir formation is a great challenge in drilling operations. Reducing the fluid infiltration using nanoparticles (NPs) brings about a significant improvement in drilling operation. Herein, a mixture of iron oxide nanoparticle (IONP) and polyanionic cellulose nanoparticle (nano-PAC) additives were added to water-based mud (WBM) to determine their impact on rheological and filtration properties measured at 80 °F, 100 °F, and 250 °F. Polyanionic cellulose (PAC-R) was processed into nano-PAC by wet ball-milling process. The rheological behaviour, low-pressure low-temperature (LPLT), and high-pressure high-temperature (HPHT) filtration properties performance of IONP, nano-PAC, and IONP and nano-PAC mixtures were compared in the WBM. The results showed that IONP, nano-PAC, and synergy effect of IONP and nano-PAC in WBM at temperatures of 80 °F and 250 °F improved the density, 10-s and 10-min gel strength (10-s Gs and 10-min GS), plastic viscosity (PV), and the yield point (YP), while the pH was constant at 9.0. The mixture of 1.5 wt.% IONP + 0.25g nano-PAC in the WBM unveiled the most promising and optimal properties. At LPLT, the mixture improved the YP by 11% and reduced the LPLT fluid loss volume (FL) by 32.4%. At HPHT, the mud density increased by 3%, 10-s GS by 56%, 10-min GS by 52%, and the YP by 33.3%, while the HPHT FL decreased by 21%. With 1.0 g concentration at 100 °F, the nano-PAC achieved the greatest reduction in the FL of the WBM by 63%, followed by PAC-R by 57% before IONP that showed 36% reduction. Overall, the impact of IONP and nano-PAC in the WBM is evident and while the IONP showed more improved PV, the nano-PAC is more desirable for fluid loss control when 1.0 g at 100 °F was used. The use of combined IONP and nano-PAC could be beneficial for mitigating fluid loss and averting wellbore problem.

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氧化铁和聚阴离子纤维素纳米颗粒增强水基泥浆的流变性和过滤性能

钻井液渗入储层造成的不稳定井筒是钻井作业中的一大挑战。利用纳米颗粒(NPs)减少流体渗透，可以显著改善钻井作业。在此，将氧化铁纳米颗粒(IONP)和聚阴离子纤维素纳米颗粒(nano-PAC)添加剂的混合物添加到水基泥浆(WBM)中，以确定它们对流变学和过滤性能的影响，并在80°F、100°F和250°F下测量。采用湿法球磨法将聚阴离子纤维素(PAC-R)加工成纳米pac。在WBM中比较了IONP、nano-PAC以及IONP和nano-PAC混合物的流变行为、低压低温(LPLT)和高压高温(HPHT)过滤性能。结果表明，在温度为80°F和250°F时，在pH恒定为9.0时，IONP、nano-PAC以及IONP和nano-PAC在WBM中的协同作用提高了WBM的密度、10-s和10-min凝胶强度(10-s Gs和10-min Gs)、塑性粘度(PV)和屈服点(YP)。在WBM中，1.5 wt.% IONP + 0.25g纳米pac的混合物显示出最有前途和最佳的性能。在LPLT时，该混合物将YP提高了11%，将LPLT失液体积(FL)降低了32.4%。在高温高压下，泥浆密度增加3%，10-s GS增加56%，10-min GS增加52%，YP增加33.3%，而高温高压下液体密度降低21%。在100°F下，纳米pac浓度为1.0 g时，对WBM的滤光率降低幅度最大，为63%，其次是PAC-R，降低幅度为57%，IONP降低幅度为36%。总的来说，IONP和纳米pac对WBM的影响是明显的，虽然IONP表现出更好的PV，但当使用1.0 g、100°F时，纳米pac更适合控制滤失。结合使用IONP和nano-PAC可以减少流体漏失，避免井筒问题。

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 Tue, August 02, 2022

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