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超高温深井油基钻井液用两亲性流型调节剂OA

An Amphiphilic Flow Pattern Regulator for Oil-Based Drilling Fluids Used in Ultra-High Temperature Deep Wells

中文摘要英文摘要

深井及超深井钻探过程中,油基钻井液在超高温且长时循环工况下易出现切力衰减、悬浮性能不足等流变性恶化问题,进而导致重晶石沉降、卡钻、井塌等复杂情况或事故.基于此,以妥尔油脂肪酸、脂肪烷基多胺和马来酸酐为原料,通过高温酰胺化反应制备出一种抗超高温的两亲性低聚物类流型调节剂,并对其流变调节性能和机理进行了详细探究.实验结果表明,该流型调节剂可显著改善油基钻井液的流变性与沉降稳定性;230℃下,0.5%的流型调节剂可使油包水乳液动切力从 0.5 Pa 提升至 4.5 Pa,破乳电压由 323 V 增至 509 V;油基钻井液体系动切力从 6.5 Pa 提高至 22.5 Pa,破乳电压由 1014 V 升至 1315 V.现场井浆经热滚 1 d并恒温静置 5 d后,该流型调节剂仍可使钻井液保持良好的切力、沉降稳定性和乳液稳定性,为抗超高温油基钻井液体系研发提供了技术参考.

In deep and ultra-deep well drilling,after long period of circulation at ultra-high temperatures,oil-based drilling fluids will experience rheology deterioration problems,such as gel or suspending capacity decline,a causative factor for barite sag,stuck pipe and wellbore collapse etc.To deal with this problem,an ultra-high temperature amphiphilic oligomer flow pattern modifier was developed through high temperature amidation reaction with raw materials such as tall oil fatty acids,fatty alkyl polyamines and maleic anhydride.Laboratory experiments were conducted to carefully investigate the performance and mechanisms of the oligomer flow pattern modifier,and the experimental results show that the oligomer flow pattern modifier can be used to significantly improve the rheology and settling stability of oil-based drilling fluids.At 230℃,0.5%oligomer flow pattern modifier can increase the yield value of a water-in-oil emulsion from 0.5 Pa to 4.5 Pa,and the emulsion stability voltage from 323 V to 509 V.It can increase the yield value of an oil-based drilling fluid from 6.5 Pa to 22.5 Pa,and the emulsion stability voltage from 1,014 V to 1,315 V.A mud sample was taken from a well,it was first hot rolled for 1 d,and then allowed for standing for 5 d.The mud sample was then treated with the oligomer flow pattern modifier,and it still acquired good gel strengths,settling stability and emulsion stability.This oligomer flow pattern modifier provides a technical reference for the development of ultra-high temperature oil-based drilling fluid.

彭江浩;高斌;王燕;邓正强;祝琦;李新亮

西南石油大学化学化工学院,成都 610500四川越盛油气田技术服务有限公司,成都 610052中国石油集团川庆钻探工程有限公司钻井液技术服务公司,成都 610056中国石油集团川庆钻探工程有限公司钻井液技术服务公司,成都 610056中国石油集团渤海钻探工程有限公司泥浆技术服务分公司,天津 300280西南石油大学化学化工学院,成都 610500

能源科技

油基钻井液超高温流型调节剂增黏提切沉降稳定

Oil-based drilling fluidUltra-high temperatureFlow pattern modifierIncrease viscosify and gel strengthSettling stability

《钻井液与完井液》 2026 (3)

366-373,8

国家自然科学基金青年基金项目"笼状纳米粒子杂化聚合物调控超高温高盐水基钻井液流变性机理研究"(52404006).

10.12358/j.issn.1001-5620.2026.03.009

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