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钻井液用高性能增黏剂的研制及性能评价OACSTPCD

Development and Performance Evaluation of a High Performance Drilling Fluid Viscosifier

中文摘要英文摘要

为了解决钻井液用增黏剂高温高盐易降解失效的问题,以两性离子单体N-甲基二烯丙基丙磺酸(MAPS)、甲基丙烯酰胺(MAC)、N-乙烯基吡咯烷酮(NVP)为聚合单体,以偶氮二异丁脒盐酸盐(AIBA)为引发剂,采用自由基共聚法合成了高性能增黏剂DV-1.通过正交实验对合成过程中的主要影响因素进行了考察,确定了最佳合成条件:反应温度为 50℃,单体浓度为 40%,引发剂用量为 0.4%,反应时间为 4h.利用FTIR,1H-NMR,TG-DTA等方法对DV-1进行了表征测试,并对产物的增黏性能、抗高温抗盐性能及长效性能等进行了评价.评价结果显示,1%的DV-1水溶液表观黏度可达 44.7 mPa·s.180℃、16 h高温老化后,溶液黏度保持率高达 53.2%;DV-1对高浓度盐离子的耐受性能较好.经180℃老化 72h和 120 h后,溶液黏度保持率能够达到 50.5%和 40.7%,长效性能优异.DV-1的半致死浓度EC50 值为30 200 mg·L-1,符合水基钻井液在海域的排放标准.通过观察DV-1在溶液中的空间立体形态及对Zeta电位的数据分析,探讨了聚合物起效机理,DV-1的抗温性能主要归因于分子结构中稳定的主链及侧链刚性基团,两性离子结构抑制了侧链的持续卷曲,提升了DV-1的抗盐性能.

A high performance viscosifier DV-1 has been developed to solve the problem of degradation and losing effectiveness of drilling fluid viscosifiers in high temperature and high salinity conditions.VD-1 is synthesized through free radical copolymerization with monomers such as MAPS,MAC and NVP.The initiator of the polymerization reaction is AIBA.The optimal reaction condition,determined through orthogonal experiment method,is as this:reaction temperature is 50℃,concentration of the monomers is 40%,concentration of initiator is 0.4%,and reaction time is 4 h.The reaction product was characterized using FTIR,1H-NMR and TG-DTA,and the viscosifying capacity,high temperature high salinity performance and the ling-term effectiveness of the synthesized product were evaluated.The evaluation experimental results show that 1%water solution of DV-1 has apparent viscosity of 44.7 mPa∙s.After aging at 180℃for 16 h,the viscosity of the water solution is still maintained at 53.2%of its original viscosity.DV-1 is resistant to the contamination of salts.DV-1 also has good long-term effectiveness;after aging at 180℃for 72 h and 120 h,the viscosity of the solution is still maintained at 50.5%and 40.7%of its original viscosity.DV-1 has EC50 of 30 200 mg∙L-1,meeting the standard of discharge in offshore area.The viscosifying mechanisms of DV-1 are studied by observing the spatial 3D morphology and by analyzing the Zeta potential of DV-1 in solution,it is concluded that DV-1 viscosifies in solution because the molecules of DV-1 have stable main chains and rigid side chains,the amphoteric ionic structure inhibits the continual curling of the side chains,thus effectively improving the salt resistant performance of DV-1 as a viscosifier.

孙振峰;杨超;李杰;张敬辉;赵凯强;王晨

中石化(大连)石油化工研究院有限公司,辽宁大连 116045

石油、天然气工程

钻井液增黏剂抗高温抗盐起效机理

Drilling fluidViscosifierHigh temperature resistantSalt resistantMechanisms of taking effect

《钻井液与完井液》 2024 (001)

84-91 / 8

中国石油化工股份有限公司科技部项目"多功能钻采化学品的开发及应用"(421034).

10.12358/j.issn.1001-5620.2024.01.009

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