Experimental investigations on the fluid flow mechanism in porous media of enhanced oil recovery by alkli/surfactant/polymer flooding

Science in China Ser. E Engineering & Materials Science Pub Date : 2005-08-20 DOI:10.1360/04YE0211

Jialu Wang, P. Shen, Yongzhong Chen, Zubo Zhang, Xuening Jia, Yuling Tian

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引用次数: 4

Abstract

The fluid flow mechanism in porous media of enhanced oil recovery by Alkli/ Surfactant/Polymer (ASP) flooding is investigated by measuring production performance, pressure distribution and saturation distribution through installing differential pressure transducers and saturation measuring probes in a physical model of vertical heterogeneous reservoir. The fluid flow variation in porous media is the main reason of enhanced oil recovery of ASP flooding. The pressure field and saturation field are nonlinearly coupled together and the interaction between them results in the fluid flow variation in the reservoir. In a vertical heterogeneous reservoir, the ASP agents initially flow in the high permeability layers because the resistance in the high permeability layer is increased under the physical and chemical action of adsorption, retention and emulsion. ASP flooding displaces out not only the residual oil in the high permeability layer, but also the remaining oil in the low and the middle permeability layers by increasing swept volume and displacing efficiency.

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碱/表面活性剂/聚合物驱提高采收率多孔介质流体流动机理实验研究

在垂直非均质储层物理模型中，通过安装差压传感器和饱和度测量探头，测量生产动态、压力分布和饱和度分布，研究了碱/表面活性剂/聚合物(ASP)驱提高采收率多孔介质中的流体流动机理。多孔介质中流体流动的变化是复合驱提高采收率的主要原因。压力场和饱和场是非线性耦合的，它们之间的相互作用导致了储层内流体流动的变化。在垂直非均质油藏中，由于吸附、滞留和乳化等物理化学作用，高渗层的阻力增大，ASP药剂最初在高渗层中流动。三元复合驱不仅能驱出高渗透层的剩余油，还能通过提高驱油体积和驱油效率，驱出低、中渗透层的剩余油。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Science in China Ser. E Engineering & Materials Science

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