Analysis of counter-current spontaneous imbibition in presence of resistive gravity forces: Displacement characteristics and scaling

Abouzar Mirzaei-Paiaman
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引用次数: 29

Abstract

Counter-current spontaneous imbibition (COUCSI) is an important mechanism of recovery from tight matrix blocks in naturally fractured reservoirs. In this study, by means of numerical simulation experiments we show that significant differences in terms of the final recovery and imbibition rate exist between COUCSI with and without the gravity forces. A specific situation where gravity forces are resisting the process is considered. For COUCSI in presence of these forces, literature on the scaling of recovery is limited. To present appropriate scaling equations, two approaches have been examined on the main governing equation; (1) inspectional analysis and (2) applying an approximate analytical solution. The scaling equations based on the latter approach give better results than those derived from the inspectional analysis and scaling equations in the literature, as well. The new scaling equations accounting for the resistive gravity forces and relative permeability and capillary pressure properties are presented, which are consistent with the common scaling situations, as well.

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重力阻力作用下的逆流自吸分析:位移特性和结垢
逆流自吸是天然裂缝性储层致密基块采油的重要机制。本文通过数值模拟实验表明,在有重力作用和无重力作用的情况下,COUCSI的最终采收率和吸胀率存在显著差异。考虑重力对这一过程产生阻力的特殊情况。对于存在这些力量的安理会,关于恢复规模的文献是有限的。为了给出合适的标度方程,在主要控制方程上研究了两种方法;(1)检验分析(2)近似解析解的应用。基于后一种方法的标度方程比基于检验分析和文献中的标度方程得到的结果更好。提出了考虑重力阻力、相对渗透率和毛管压力特性的新的结垢方程,与常见的结垢情况一致。
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