高温低密度油基钻井液体系室内研究

范胜; 周书胜; 方俊伟; 于洋; 齐彪; 李银婷

doi:10.3969/j.issn.1001-5620.2020.05.004

高温低密度油基钻井液体系室内研究

doi: 10.3969/j.issn.1001-5620.2020.05.004

1. 中国石化西北油田分公司, 新疆乌鲁木齐 830011;
2. 荆州嘉华科技有限公司, 湖北荆州 434000

详细信息

作者简介:
范胜,工程师,2013年毕业于中国石油大学(北京),现在主要从事钻井液技术研究工作。电话18082871337;E-mail:459131036@qq.com

中图分类号: TE254.3
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出版历程
- 收稿日期: 2020-04-06
- 刊出日期: 2020-10-28

Laboratory Study on High Temperature Low Density Oil Base Drilling Fluids

1. Sinopec Northwest Company, Urumqi, Xinjiang 830011;
2. Jingzhou Jiahua Technology Co., Ltd., Jingzhou, Hubei 434000

摘要

摘要: 在高温深井中，为了保护低压油气层，合成一种新型有机土MZ，用以配制高温低密度油基钻井液体系。室内研究结果表明：有机土MZ的胶体率优于有机土A828、B500A和B38，MZ在柴油中胶体率可高达97.4%，高温热滚前后主要性能变化小，表明高温并没有破坏其聚结胶联的空间网状结构，具有较好的胶体稳定性和抗温性；MZ晶层间距为2.05 nm，季铵盐离子取代金属离子进入膨润土层间，使其晶层间距增大；MZ配制的高温低密度油基钻井液体系，热滚前后黏度变化不大，热滚后具有较高的切力，高温高压滤失量小于3 mL；MZ配制的钻井液能抗温220℃，抗50%盐水或15%泥岩钻屑的侵入污染，满足深井复杂地层钻井液技术需求。
- 低密度钻井液 /
- 高温 /
- 季铵盐 /
- 有机土 /
- 性能评价
Abstract: A high temperature low density oil base drilling fluid was formulated with a newly developed organophilic clay MZ to protect low pressure reservoirs in high temperature deep wells. In laboratory experiment, the colloid fraction of MZ was greater than that of another three organophilic clays:A828, B500A and B38. The colloid fraction of MZ in diesel oil can be as high as 97.4%. The properties of the slurry made from MZ only change slightly before and after hot rolling at high temperatures, indicating that high temperature does not destroy the spatial network structure formed by the coalescing and crosslinking of the particles of MZ, and MZ has good colloidal stability and thermal stability. The crystal interlayer spacing of MZ is 2.05 nm. Substitution of quaternary ammonium ions for metal ions in the crystal layers of bentonite increases the crystal interlayer spacing. Testing on the high temperature low density oil base drilling fluid formulated with MZ showed that the viscosity o the drilling fluid changed only slightly before and after hot rolling. After hot rolling, the gel strengths of the drilling fluid increased, and the HTHP filter loss was less than 3 mL. Oil base drilling fluids formulated with MZ are resistant to high temperature to 220℃, contamination from invasion of 50% salt water or 15% shale cuttings, satisfying the needs of drilling deep wells penetrating complex formations.
- Low density drilling fluid /
- High temperature /
- Quaternary ammonium salt /
- Organophilic clay /
- Performance evaluation

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参考文献(13)

[1]	鄢捷年. 钻井液工艺学[M]. 东营:中国石油大学出版社,2001:236-252. YAN Jienian. Drilling fluid technology[M]. Dongying:China University of Petroleum Press, 2001:236 -252.
[2]	邵宁,李子钰,于培志. 高密度油基钻井液体系优选及其在页岩气水平井的应用[J]. 探矿工程(岩土钻掘工程),2019,46(8):30-35. SHAO Ning,LI Ziyu,YU Peizhi. Optimization of highdensity oil-based drilling fluid system and its application in shale gas horizontal wells[J].Exploration Engineering (Rock & Soil Drilling and Tunneling),2019,46(8):30-35.
[3]	潘谊党,于培志. 密度对油基钻井液性能的影响[J]. 钻井液与完井液,2019,36(3):273-279. PAN Yidang,YU Peizhi.Effect of density on the performance of oil base drilling fluids[J]. Drilling Fluid & Completion Fluid,2019,36(3):273-279.
[4]	孙中富,王卫东,李小迪,等. 生物柴油钻井液用有机土的制备[J]. 钻井液与完井液,2015,32(6):11-13. SUN Zhongfu,WANG Weidong,LI Xiaodi,et al. Study on organophilic clay for bio-diesel oil drilling fluid[J].Drilling Fluid & Completion Fluid,2015,32(6):11-13.
[5]	舒福昌,向兴金,史茂勇,等. 白油中高成胶率有机土HMC-4的研究[J]. 石油天然气学报, 2013, 35(9):93-95. SHU Fuchang,XIANG Xingjin,SHI Maoyong,et al. Study on organic clay HMC-4 with high colloid fraction in white oil[J]. Journal of Oil and Gas Technology,2013, 35(9):93-95.
[6]	蔡香丽, 甄卫军, 李振江. 中低品位膨润土的有机化及在泥浆中的应用[J]. 化工矿物与加工, 2005,34(3):7-9. CAI Xiangli,ZHEN Weijun,LI Zhenjiang.Preparation and characterization of organo-bentonite from low to medium grade clay and its application in oil mud for drilling[J]. Industrial minerals & Processing,2005,34(3):7-9.
[7]	解宇宁. 低毒环保型油基钻井液体系室内研究[J]. 石油钻探技术,2017,45(1):45-50. XIE Yuning. Experimental study on low-toxicity and environmental-friendly oil-based drilling fluids[J]. Petroleum Drilling Techniques,2017,45(1):45-50.
[8]	ABOLLINO O,ACETO M,MALANDRINO M,et al. Adsorption of heavy metals on Na-montmorillonite.Effect of pH and organic substances[J].Water Research,2003, 37(7):1619-1627.
[9]	梁敏,苏中祥,杨青廷,等. 低密度新体系钻井液在高温超深井中的运用[J]. 钻采工艺,2004,27(1):6-7. LIANG Min,SU Zhongxiang,YANG Tingting,et al. The application of low density drilling dluid system in superdeep well with high temperature[J].Drilling & Production Technology,2004,27(1):6-7.
[10]	曹杰,邱正松,徐加放,等. 有机土研究进展[J]. 钻井液与完井液,2012,29(3):81-84. CAO Jie,QIU Zhengsong,XU Jiafang,et al.Study progresses in organic clay[J]. Drilling Fluid & Completion Fluid,2012,29(3):81-84.
[11]	李春霞,黄进军,高海洋,等. 一种新型抗高温有机土的研制及性能评价[J]. 西南石油学院学报,2001, 23(4):54-56. LI Chunxia,HUANG Jinjun,GAO Haiyang,et al. Preparation and function evaluation of a new antiHigh temperature organic clay[J].Journal of Southwest Petroleum Institute,2001,23(4):54-56.
[12]	XI YF,HE HP,FROST RL. Modification of the surfaces of Wyoming montmorillonite by the cationic surfactants alkyl trimethyl,dialkyl dimethyl,and trialkyl methyl ammonium bromides[J].Colliod and Interface Science,2007,305(1):150-158.
[13]	LI J, WALKER S. Sensitivity analysis of hole cleaning parameters in directional wells[J]. SPE Journal, 2001, 6(4):356-363.