Development and Evaluation of the Nano Plugging Agent NF-1
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摘要: 纳米材料具有粒度小、分散性高、稳定性好的特点,能够解决钻井过程中地层漏失和井壁不稳定等问题。通过研究反应溶剂、反应物物质的量比、反应温度、表面活性剂种类等有关因素,结合水热法与溶剂热法制备出一种适用于钻井液的纳米封堵材料。实验研究发现,将SnCl4·5H2O和苯并咪唑按4:0.1的物质的量比加入到无水乙醇和去离子水混合液中,再加入一定量的十二烷基苯磺酸钠,在100~120℃下反应,可以制得粒度达到91.4 nm的一维无机纳米封堵材料NF-1。封堵评价实验结果表明,在3%钻井液基浆中加入5%的NF-1,在105℃、3.5 MPa、30 min条件下测得滤失量为12.8 mL,钻井液泥饼渗透率由8.166×10-7 μm2下降为2.225×10-7 μm2,说明该纳米封堵材料性能优异、封堵效果好。Abstract: Nano material has small particle size, is well dispersed and has stable properties, thus is always used in solving lost circulation and borehole collapse encountered in drilling operation. A nano material plugging agent, NF-1 was developed by adding SnCl4·5H2O and benzimidazole into a mixture of absolute alcohol and deionized water under certain conditions. The synthesis was done by combining hydrothermal method and solvothermalmethod, taking into account the effects of reaction solvent, molar ratio of reactants, reaction temperature, and surfactant used in the reaction. NF-1 has particle size of 91.4 nm. Laboratory evaluation showed that addition of 5% NF-1 into a base mud reduced the 30 min filter loss of the base mud to 12.8 mL at 105℃, 3.5 MPa, indicating that NF-1 had excellent plugging performance.
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Key words:
- Nano material /
- Dispersity /
- Drilling fluid /
- Plugging additive
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裴立宅,唐元洪,郭池,等.水热法及溶剂热合成法制备Ⅳ族一维无机纳米材料[J]. 稀有金属, 2005, 29(2):15-18. PEI Lizhai,TANG Yuanhong,GUO Chi,et al. Ⅳ Subgroup one-dimensional inorganic nanomaterials synthesized byhydrothermal and solvothermal methods[J]. Chinese Journal of Rare Metals,2005,29(2):15-18. 李大光,舒绪刚,张延霖,等. 溶胶-凝胶法制备纳米氧化物[J]. 韶关学院学报,2001, 22(6):5-9. Li Daguang, SHU Xugang, ZHANG Yanlin. Developments in preparation of nanoscale oxide by Sol-Gel[J].Journal of Shaoguan University(Natural Science),2001, 22(6):5-9. JIRU M, GUOZHENG Z L L, HUAYU Q. The preparation of inorganic nonmetallic nanoparticles[J]. New Chemical Materials,2000,4:007. YUNPU H, YADONG L, LONGQUAN L, et al. Preparation of nanocrystalline SnO2[J]. Chinese Journal of Applied Chemistry,1998:06. HU H, MO M, YANG B, et al. A rational complexingreduction route to antimony nanotubes[J].New Journal of chemistry, 2003, 27(8):1161-1163. 李红, 邵鑫.水热(溶剂热)法制备形貌可控的ZnS纳米材料的研究进展[J]. 日用化学工业,2011,41(2):15. LI Hong, SHAO Xin. Research progress in preparation of morphology-controllable ZnS nano-particle material by hydrothermal or solvent-thermal methods[J].China Surfactant Detergent & Cosmetics,2011,41(2):15. ZHANG M, WANG Z, XI G, et al. Large-scale synthesis of antimony nanobelt bundles[J]. Journal of Crystal Growth, 2004, 268(1):215-221. 王新军,万福全,韩坤,等. 溶剂热/水热法控制合成一维无机纳米材料的影响因素探讨[J]. 材料导报, 2007,21(F11):151-155. WANG Xinjun, WAN Fuquan, HAN Kun,et al. Discussion on influencing factors of controlling synthesis of onedimensional inorganic nanomaterials by hydrothermal or solvothermal methods[J].Materials Review,2007,21(F11):151-155. 王海波,孙青竹.表面活性剂在纳米材料制备中的应用[J]. 佳木斯大学学报(自然科学版), 2007, 25(4):471-473. WANG Haibo, SUN Qingzhu.Applications of surfactants in the preparation of nanometer materials[J].Journal of Jiamusi University(Natural Science Edition), 2007, 25(4):471-473. -
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