Production of water-based mud for drilling operation application

N. Ridzuan, Fiona Ding, Victoria Mathew, B. Elarbe
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Abstract

A successful drilling operation is heavily dependent on the effectiveness of the drilling fluid's design in use. This study attempts to evaluate the rheological and filtration properties of water-based drilling mud (WBDM) upon the addition of Stearyl Acrylate-Behenyl Acrylate (SABA) copolymer, silicon dioxide (SiO2), and nickel (III) oxide (Ni2O3) nanoparticles. This SABA copolymer-nanofluid was prepared by dissolving the nanofluid in a SABA polymer solution and homogenizing it using ultrasonication. The properties were studied using mud balance, viscometer, and low-pressure low-temperature (LPLT) filter press. The rheological and filtration properties of SABA copolymer were found to imply that it could improve drilling fluid performance. However, the addition of nanoparticles gave a better performance of rheological and filtration properties on WBDM. SABA copolymer with 5000 ppm concentration shows the best performance due to showing the highest viscosity compared to basic drilling fluid. Also, the addition of 800 ppm of Ni2O3 concentration into 5000 ppm of SABA shows the lowest fluid losses. The experimental results indicate that SABA copolymer shows a great potential application and the addition of nanoparticles shows that nanotechnology has a lot of potentials to improve WBM performance
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生产的水基泥浆适用于钻井作业
成功的钻井作业在很大程度上取决于所使用的钻井液设计的有效性。本研究试图评价加入硬脂酰丙烯酸酯-苯乙烯酰丙烯酸酯(SABA)共聚物、二氧化硅(SiO2)和氧化镍(Ni2O3)纳米颗粒后的水基钻井泥浆(WBDM)的流变学和过滤性能。将纳米流体溶解在SABA聚合物溶液中,用超声均质法制备了SABA共聚物-纳米流体。利用泥浆平衡、粘度计和低压低温压滤机对其性能进行了研究。SABA共聚物的流变性能和过滤性能表明它可以改善钻井液性能。然而,纳米颗粒的加入使WBDM具有更好的流变性能和过滤性能。与基础钻井液相比,5000 ppm浓度的SABA共聚物具有最高的粘度,因此性能最佳。此外,在5000 ppm的SABA中加入800 ppm的Ni2O3浓度,流体损失最低。实验结果表明,SABA共聚物具有很大的应用潜力,纳米粒子的加入表明纳米技术在改善WBM性能方面具有很大的潜力
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