Acute PEBI Grid Generation for Reservoir Geometries

Shahid Manzooor, M. Edwards, A. Dogru
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Abstract

An unstructured grid generation method is presented that automates control-volume boundary alignment to geological objects and control point alignment to complex wells. The grid generation method is coupled with an iterative acute mesh reconstruction technique, to construct essentially acute triangulations, while satisfying quite general geometric constraints. For well aligned grids control points are constrained to the well trajectory and protection circles are used, whereas for boundary aligned grids halo construction is performed. Unstructured Delaunay triangulations (DT) have the desirable locally orthogonal perpendicular bisectional (PEBI) property, required by the industry standard two-point flux approximation for consistency for isotropic fields. The PEBI property can only be exploited if such grids are comprised of acute simplexes, with circumcentres located inside their respective elements. The method presented enables acute DT layered mesh generation while honoring internal boundaries and wells in a two dimensional space. A dual (Voronoi) grid derived from a feature honored simplicial mesh is then projected in the vertical direction generating 2.5D PEBI grids. Effectiveness of the method to construct acute PEBI grids honoring geological objects and complex wells is demonstrated by meshing representative reservoir geometries. Numerical results are presented that verify consistency of the two-point flux on the resulting boundary-aligned acute PEBI grids. Development of an unstructured grid generation method which 1) Automates interior boundary alignment, 2) Honors features with respect to control point and/or control volume, and 3) Generates acute PEBI grids for reservoir geometries is presented. A unique workflow is presented to generate boundary aligned acute PEBI grids for complex geometries. Development of boundary aligned grids that honor both geological objects and multilateral complex wells, together with mesh reconstruction to ensure circumcenter containment is presented. Further, 3D PEBI grid generation method which can limit refinement to well perforations and geological objects is also described.
油藏几何图形的快速PEBI网格生成
提出了一种非结构化网格生成方法,实现了对地质目标的控制体边界对齐和对复杂井的控制点对齐的自动化。网格生成方法与迭代急性网格重建技术相结合,构建本质上急性三角剖分,同时满足相当一般的几何约束。对于井向网格,控制点被约束于井眼轨迹并使用保护圈,而对于边界对准网格,则执行晕构造。非结构Delaunay三角剖分(DT)具有理想的局部正交垂直对分(PEBI)性质,这是工业标准两点通量近似为各向同性场一致性所要求的。PEBI属性只能在这样的网格由锐角单形组成,圆周位于各自的元素内时才能被利用。所提出的方法能够在二维空间中实现快速DT分层网格生成,同时尊重内部边界和井。然后在垂直方向上投影由特征简化网格派生的对偶(Voronoi)网格,生成2.5D PEBI网格。通过对具有代表性的储层几何形状进行网格划分,验证了该方法在构造地质对象和复杂井的快速PEBI网格中的有效性。数值结果验证了两点通量在边界对准的急性PEBI网格上的一致性。提出了一种非结构化网格生成方法的开发,该方法1)自动化内部边界对齐,2)尊重控制点和/或控制体积的特征,以及3)为油藏几何形状生成急性PEBI网格。针对复杂几何图形,提出了一种独特的生成边界对齐急性PEBI网格的工作流程。提出了既尊重地质目标又尊重多边复杂井的边界对齐网格的发展,以及网格重建以确保环中心遏制。此外,还描述了3D PEBI网格生成方法,该方法可以将细化限制在井射孔和地质对象上。
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