基于复杂系统模拟平台的天然裂缝性储层两相流润湿性数值研究

M. Sedaghat, H. Dashti
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引用次数: 0

摘要

润湿性是储层表征的重要组成部分,在理解提高油藏采收率的主要机制方面起着至关重要的作用。润湿性通过改变(排水和吸胀)毛细压力和相对渗透率曲线来影响采收率。本文旨在研究天然裂缝性油藏中润湿性在基质-裂缝流体运移和采收率中的作用。选取2个实验微观模型和1个地质露头模型进行研究。利用相对渗透率和毛细压力曲线研究了基质润湿性的作用。给出了裂缝的线性相对渗透率曲线。使用复杂系统建模平台(csmp++)模拟了不同润湿性条件下的水驱和聚合物驱。对比微模型数据,csmp++和Eclipse对csmp++进行了验证和验证。结果表明,水驱对润湿性变化的影响强于聚合物驱。此外,较高的基质-裂缝渗透率比使润湿性改造更加有效。研究结果表明,虽然水湿介质中流量的增加会降低采收率,但这与油湿体系中的流量无关。可视化数据表明,在油湿、混湿和水湿介质中,驱替机理不同。裂缝突破早、基质突破晚、驱油相在水平渗透率对比高的位置产生和膨胀是天然裂缝性油湿岩提高采收率的最重要特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Numerical Investigation of Wettability Effects on Two-Phase Flow in Naturally Fractured Reservoirs Using Complex System Modelling Platform
Wettability is an essential component of reservoir characterization and plays a crucial role in understanding the dominant mechanisms in enhancing recovery from oil reservoirs. Wettability affects oil recovery by changing (drainage and imbibition) capillary pressure and relative permeability curves. This paper aims to investigate the role of wettability in matrix-fracture fluid transfer and oil recovery in naturally fractured reservoirs. Two experimental micromodels and one geological outcrop model were selected for this study. Three relative permeability and capillary pressure curves were assigned to study the role of matrix wettability. Linear relative permeability curves were given to the fractures. A complex system modelling platform (CSMP++) has been used to simulate water and polymer flooding in different wettability conditions. Comparing the micromodel data, CSMP++ and Eclipse validated and verified CSMP++. Based on the results, the effect of wettability alteration during water flooding is stronger than in polymer flooding. In addition, higher matrix-to-fracture permeability ratio makes wettability alteration more effective. The results of this study revealed that although an increase in flow rate decreases oil recovery in water-wet medium, it is independent of flow rate in the oil-wet system. Visualized data indicated that displacement mechanisms are different in oil-wet, mixed-wet and water-wet media. Earlier fracture breakthrough, later matrix breakthrough and generation and swelling of displacing phase at locations with high horizontal permeability contrast are the most important features of enhanced oil recovery in naturally fractured oil-wet rocks.
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