高温老化对黏土/降滤失剂体系滤失作用研究  被引量:4

Effect of High-Temperature Aging on the Filtration of Clay/Filtrate Reducer Dispersion

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作  者:金军斌[1] 董晓强[1] 

机构地区:[1]页岩油气富集机理与有效开发国家重点实验室中国石化石油工程技术研究院,北京100101

出  处:《科学技术与工程》2018年第3期15-20,共6页Science Technology and Engineering

基  金:国家重大专项(2016ZX05061);国家自然科学基金(51490650);中石化科技部项目(P16021);水基泡沫钻井液高温稳定机理研究资助

摘  要:考察了高温老化对降滤失剂SMPFL与钠蒙脱土Na-MMT复配体系的滤失性能及影响规律,通过体系黏度、红外光谱、SEM及Zeta电位等考察了体系的高温失稳机理。老化前SMPFL在Na-MMT表面的吸附造成颗粒Zeta电势、水化膜厚度以及颗粒间斥力增加,而且使颗粒在泥饼中松散堆积增大了泥饼渗透率,滤失量的降低主要原因是体系黏度的增高;虽然高温造成Na-MMT/SMPFL体系滤失量增大,但老化后SMPFL仍具有良好的控滤失性能。高温老化造成Na-MMT与SMPFL间氢键作用力减弱,加速聚合物从颗粒表面的脱附、减小颗粒水化膜厚度,而且导致SMPFL的水解。与老化前相比,老化后体系滤失量的降低主要原因是泥饼渗透率的降低。The filtration properties of filtrate reducer SMPFL and sodium montmorillonite( Na-MMT) base mud before and after high temperature aging were evaluated. The high temperature destabilization mechanisms were deduced by viscosity,IR spectrum,SEM and zeta potential measurements. For the non-aged base mud,the adsorption of SMPFL at Na-MMT surface is contributed to the increase of zeta potential and the thickness of hydration film. The enhancement of repulsive force between Na-MMT particles causes the loose accumulation of Na-MMT particles in mud cake and the improvement of filter cake permeability. In this case the decrease of fluid loss is mainly attributed to the improvement of filtrate viscosity. The high temperature aging has significant influences on the filtration of Na-MMT/SMPFL base mud,whereas the filtrate reducer still has an excellent filtrate controlling capacity.The high temperature aging not only weakens the hydrogen bonding between SMPFL and Na-MMT,accelerates the desorption from particle surface,decreases the hydration film thickness of solid particles,but causes the hydrolysis of filtrate reducer. Compared with non-aged dispersion,the decrease of filtration for the aged dispersion is mainly attributed to the reduction of permeability.

关 键 词:钻井液 蒙脱土 降滤失剂 泥饼 高温老化 

分 类 号:TE254[石油与天然气工程—油气井工程]

 

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