Adsorption kinetics and enhanced oil recovery by silica nanoparticles in sandstone

Rockey Abhishek; Aly A. Hamouda; Faisal Muthanna Abdulhameed

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Adsorption kinetics and enhanced oil recovery by silica nanoparticles in sandstone

机译：吸附动力学和砂岩中二氧化硅纳米粒子的增强储存

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This study addresses adsorption kinetics of silica nanoparticles on sandstone mineral surfaces and Enhanced oil recovery (EOR) by nanoparticles. It was shown that nanoparticle adsorption on quartz which is the major constituent of sandstone reservoirs was best described as second order process. Both rate and equilibrium adsorption increases with salinity. However, salinity reduces Intraparticle diffusion while enhancing film diffusion. Spontaneous imbibition with nanoparticles dispersed in low salinity water showed higher incremental recovery which may be due to increased structural disjoining pressure. This was supported by surface forces analysis based on particle size and zeta potential measurements of the nanofluids.

机译：本研究探讨了二氧化硅纳米颗粒在砂岩矿物表面的吸附动力学以及纳米颗粒提高原油采收率（EOR）。结果表明，纳米颗粒在砂岩储层主要成分石英上的吸附最好描述为二级过程。速率和平衡吸附均随盐度增加而增加。然而，盐度降低了颗粒内扩散，同时增强了薄膜扩散。分散在低盐度水中的纳米颗粒的自发渗吸显示出较高的增量回收率，这可能是由于结构分离压力增加所致。这得到了基于纳米流体颗粒大小和zeta电位测量的表面力分析的支持。

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来源
《Petroleum Science and Technology》 |2019年第12期|共7页
作者
Rockey Abhishek; Aly A. Hamouda; Faisal Muthanna Abdulhameed;
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作者单位

Department of Energy and Petroleum Engineering University of Stavanger Stavanger Norway;

Energy and Petroleum Engineering University of Stavanger Stavanger Norway;

Department of Energy and Petroleum Engineering University of Stavanger Stavanger Norway;

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原文格式 PDF
正文语种 eng
中图分类石油、天然气加工工业;
关键词
silica nanoparticles; adsorption kinetics; EOR; spontaneous imbibition; DLVO;

机译：二氧化硅纳米粒子;吸附动力学;EOR;自发性吸收;DLVO;

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Adsorption kinetics and enhanced oil recovery by silica nanoparticles in sandstone

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