Comparing Advanced Discretization Methods for Complex Hydrocarbon Reservoirs

D. Hjeij, A. Abushaikha
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引用次数: 3

Abstract

Most commercially available simulators use the trivial two-point flux approximation (TPFA) method for flux computation. However, the TPFA only gives consistent solutions when used for K-orthogonal grids. In general, multi-point flux approximation (MPFA) methods perform better under both heterogeneous and anisotropic conditions. The mimetic finite difference (MFD) method is designed to preserve properties on unstructured polyhedral grids, and its development for simulating full tensor permeabilities is also crucial step. This paper compares the performance, accuracy, and efficiency of these schemes for simulating complex synthetic and realistic hydrocarbon reservoirs.
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复杂油气藏离散化方法的比较
大多数商用模拟器使用平凡两点通量近似(TPFA)方法进行通量计算。然而,TPFA仅在用于k正交网格时给出一致解。一般来说,多点通量近似(MPFA)方法在非均质和各向异性条件下都表现较好。模拟有限差分(MFD)方法是为了在非结构化多面体网格上保持特性而设计的,开发模拟全张量渗透率的方法也是关键的一步。本文比较了这些方案在模拟复杂合成油气藏和真实油气藏时的性能、精度和效率。
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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