Numerical study on the interaction of solid grains with fluid in the production of natural resources

N. Tanimoto, H. Mikada, J. Takekawa
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Abstract

The sanding is recognized as one of the main problems in producing hydrocarbon resources. Although it is important to predict the occurrence of the sanding during production, the prediction or countermeasure still remains to be established. In this study, we conduct numerical simulation of fluid-solid multi-phase flow in order to investigate the factors which affect the occurrence of the sanding. Our numerical model is a fluid path consists of a set of planar plates of a finite length filled by fluid and a mound of small solid grains. A fluid flow is produced by the pressure gradient with different magnitudes between the both end of the path. We found that a few small grains leave the mound with a high pressure gradient whereas no floating grains were observed with a low pressure gradient. We also observed a reasonable change in the flow velocity and relative permeability when the floating of small grains occurs. This result indicates that the sanding can be detected by observing the time variation of flow rate during production.
自然资源生产中固体颗粒与流体相互作用的数值研究
出砂是油气资源开发中的主要问题之一。虽然在生产过程中对出砂的发生进行预测是很重要的,但预测或对策仍有待建立。在本研究中,我们对流固多相流动进行了数值模拟,以探讨影响砂化发生的因素。我们的数值模型是由一组由流体填充的有限长度的平面板和一堆小固体颗粒组成的流体路径。流体流动是由路径两端不同大小的压力梯度产生的。我们发现少量小颗粒在高压梯度下离开土丘,而在低压梯度下没有观察到漂浮颗粒。我们还观察到,当小颗粒发生漂浮时,流速和相对渗透率也发生了合理的变化。结果表明,可以通过观察生产过程中流量的时间变化来检测出出砂。
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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