一种新型近红外光下自光降解钻井液,具有较好的井筒稳定性

Jin Jiafeng, K. Lv, Jinsheng Sun, Yingrui Bai, Jingping Liu, Jintang Wang, Huang Xianbin
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引用次数: 0

摘要

随着石油工业钻井作业的不断增加,大量的钻井废液——多环芳烃(PAHs)对人类健康和生态系统造成了巨大的威胁。人们提出了各种方法来修复废弃钻井液造成的损害,其中光催化是最有希望去除有机污染物的方法之一。最新研究表明,在疏水碳纳米管上修饰Bi2WO6可以在短时间内去除高达80%的有机污染物,表现出良好的光催化性能。此外,这种疏水碳纳米管由于具有优异的防水性,在稳定井筒方面发挥着至关重要的作用。本研究的目的是研究Bi2WO6改性疏水碳纳米管对钻井过程中PAHs光降解和井筒稳定性的影响。Bi2WO6作为一种近红外驱动的光催化剂,由于其良好的氧空位性和量子效率而受到了广泛的关注。然而,光生载流子迁移效率低阻碍了Bi2WO6的应用。将Bi2WO6与具有良好导电性的复合材料结合是解决这一问题的有效方法。在油气钻井作业中,页岩水化引起的井筒不稳定性也给钻井带来了巨大的挑战。在本研究中,通过纳米尺寸的Bi2WO6片对疏水碳纳米管进行改性,获得了具有井眼稳定能力的光催化剂。通过测试失滤性能和润湿性,评价了该新型药剂的井眼稳定能力。同时,通过光降解实验和途径分析来评价Bi2WO6/CNT光降解对有机污染物的影响。光降解数据表明,经Bi2WO6/CNT处理后,多环芳烃的降解率可达80%,光生成载体的迁移效率显著提高。用0.3%的Bi2WO6/CNT溶液处理后,可以观察到失液量略有下降,粘度明显增加。流变性试验结果表明,光催化剂对钻井液的流变性能影响不大。SEM结果表明,这种具有bombax结构的新型Bi2WO6/CNT复合材料能够优先吸收有机污染物,具有良好的原位光降解和防水入侵性能。综上所述,新型Bi2WO6纳米片改性碳纳米管可以光降解废弃钻井液中的多环芳烃,并且由于润湿性的改变,也可以显著提高井筒的稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Self-Photodegradation Drilling Fluids Under Near-Infrared Light Irradiation with Preferable Wellbore Stability
The ever-mounting drilling operations of the petroleum industry has been accompanied by tremendous wasted drilling fluid, Polycyclic Aromatic Hydrocarbons (PAHs) in which pose a huge threat to the health of human and ecosystem. Varying approaches have been proposed to remediate the damage caused by wasted drilling fluid, among which photocatalysis has been one of the most promising approaches for organic contaminants removal. The latest investigation shows that Bi2WO6 decorated on hydrophobic CNT can remove up to 80 % organic contaminant within a short time, exhibiting a preferable photocatalytic performance. Moreover, this hydrophobic CNT can play a vital role in stabilizing the wellbore due to its excellent water repellent. The objective of the study was to find out the effect of Bi2WO6 modified hydrophobic CNT on the PAHs photodegradation and wellbore stability in the process of drilling. Bi2WO6 as a near-infrared driven photocatalyst has attracted worldwide attention due to its preferable oxygen vacancy and quantum efficiency. However, the application of Bi2WO6 was impeded by the low migration efficiency of photo-generated carriers. The combination of Bi2WO6 and composite with good conductivity has been an effective method to resolve this problem. The instability of wellbore caused by shale hydration during oil and gas drilling operations also brings a huge challenge. In this study, a photocatalyst with wellbore stabilization capacity is achieved by hydrophobic CNT modified via Bi2WO6 sheet with nano-size. The fluid loss and wettability property were measured to evaluate the wellbore stabilization capacity of this novel agent. Meanwhile, photodegradation experiments and pathway analysis were conducted to evaluate the effect of photodegradation by Bi2WO6/CNT on the organic contaminants. Data of photodegradation indicated that the PAHs can be degraded up to 80% after treated by Bi2WO6/CNT, the migration efficiency of photogenerated carriers improved significantly. A slight decrease in fluid loss and distinctive increase in viscosity can be observed after treated with 0.3% Bi2WO6/CNT solution. The results of the rheology test verified that the photocatalyst has little effect on the rheological properties of drilling fluid. The result of SEM indicated that this novel Bi2WO6/CNT composite with a bombax structure can absorb preferentially organic contaminants, which is good at in-situ photodegradation and prevention of water invasion. To sum up, PAHs in wasted drilling fluids can be photodegraded by the novel Bi2WO6 nano-sheet modified CNT, and the stability of wellbore can also be significantly enhanced due to wettability alteration.
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