Synthesis and Evaluation of High-Temperature Resistant Polymer Plugging Agent for Water-Based Drilling Fluids

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-24 DOI:10.1021/acsomega.4c0714510.1021/acsomega.4c07145
Jinzhi Zhu, Hongjun Liang, Yilin Liu, Boyang Yu and Chao Ma*, 
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Abstract

As the exploration and development of deep wells have emerged as a key option to extract more oil and gas resources trapped underneath, high-temperature formations impose stringent requirements on the thermal stability of plugging agents used in water-based drilling fluids. In this work, β-cyclodextrin, with its unique conical toroidal rigid stable structure and internal hydrophobic and external hydrophilic special adsorption capacity, was first grafted with maleic anhydride to prepare a silicone polymer and then copolymerized with dimethyldiallylammonium chloride (DMDAAC) in the presence of coupling agent vinyltriethoxysilane (A151) and cross-linking divinylbenzene (DVD) to finally obtain a high-temperature resistant plugging agent (AMMD). Subsequently, the molecular structure was evidenced and the performance of AMMD was examined in the polysulfonate-base fluid via a series of tests including high-temperature high-pressure filtration loss, sand tray plugging, and drilling fluid displacement, and the results were compared with the counterpart Soltex under the same conditions. The optimal synthesis conditions for the plugging agent were found as total monomer concentration of 25%, initiator mass fraction of 1% (based on the mass of monomers), monomer feed ratio of m (DVD):m(A151):m(DMDAAC):m(MD) of 15:3:2:15, pH value of 10, reaction temperature of 75 °C, and reaction time of 4 h. FT-IR spectra indicated that the monomers used to prepare AMMD were successfully involved in the reaction for the design of the plugging agent structure. TGA showed that AMMD has a total weight loss of about 35.98% in the range of 284 to 453 °C. Moreover, the addition of 3%AMMD into the base fluid produced a 4.38-fold and 3.8-fold filtration loss control over 60 min at 200 °C using 400 and 800 mD sand trays, respectively, which were comparatively higher than the commercially available Soltex (ca. 3.72-fold and 3.14-fold, respectively, using 400 and 800 mD). This then contributed to AMMD’s superior plugging performance in drilling fluid based on the drilling fluid displacement experiment, implying that AMMD could find potential use as a plugging agent in polysulfonate drilling fluid under severe geothermal conditions.

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水基钻井液用耐高温聚合物堵漏剂的合成与评估
随着深井勘探和开发成为开采更多地下油气资源的关键选择,高温地层对水基钻井液中所用堵剂的热稳定性提出了严格要求。在这项研究中,β-环糊精具有独特的锥形环状刚性稳定结构和内疏水外亲水的特殊吸附能力,首先与马来酸酐接枝制备有机硅聚合物,然后在偶联剂乙烯基三乙氧基硅烷(A151)和交联二乙烯基苯(DVD)存在下与二甲基二烯丙基氯化铵(DMDAAC)共聚,最终得到耐高温堵剂(AMMD)。随后,通过高温高压滤失量、沙盘堵塞、钻井液位移等一系列试验,对AMDD的分子结构进行了论证,并考察了其在聚磺酸盐基流体中的性能,并将结果与相同条件下的同类产品Soltex进行了比较。结果表明,该堵漏剂的最佳合成条件为:单体总浓度为 25%,引发剂质量分数为 1%(基于单体质量),单体进料比 m(DVD):m(A151):m(DMDAAC):m(MD)为 15:3:2:15,pH 值为 10,反应温度为 75 °C,反应时间为 4 小时。傅立叶变换红外光谱表明,用于制备 AMMD 的单体成功地参与了堵漏剂结构设计的反应。TGA 显示,在 284 至 453 ℃ 范围内,AMDD 的总失重约为 35.98%。此外,在基础液中加入 3%AMMD 后,使用 400 和 800 mD 砂盘,在 200 °C 下 60 分钟内分别产生了 4.38 倍和 3.8 倍的过滤损失控制,这比市售的 Soltex(使用 400 和 800 mD 分别产生约 3.72 倍和 3.14 倍的过滤损失)要高。因此,根据钻井液位移实验,AMDD 在钻井液中的堵塞性能更优越,这意味着在严酷的地热条件下,AMDD 有可能用作聚磺酸盐钻井液的堵塞剂。
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CiteScore
7.20
自引率
4.30%
发文量
567
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