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孔洞型多孔介质中水力传导率的多尺度建模

Multiscale modelling of hydraulic conductivity in vuggy porous media.

作者信息

Daly K R, Roose T

机构信息

School of Engineering Science , University of Southampton , Southampton SO17 1BJ, UK.

出版信息

Proc Math Phys Eng Sci. 2014 Feb 8;470(2162):20130383. doi: 10.1098/rspa.2013.0383.

Abstract

Flow in both saturated and non-saturated vuggy porous media, i.e. soil, is inherently multiscale. The complex microporous structure of the soil aggregates and the wider vugs provides a multitude of flow pathways and has received significant attention from the X-ray computed tomography (CT) community with a constant drive to image at higher resolution. Using multiscale homogenization, we derive averaged equations to study the effects of the microscale structure on the macroscopic flow. The averaged model captures the underlying geometry through a series of cell problems and is verified through direct comparison to numerical simulations of the full structure. These methods offer significant reductions in computation time and allow us to perform three-dimensional calculations with complex geometries on a desktop PC. The results show that the surface roughness of the aggregate has a significantly greater effect on the flow than the microstructure within the aggregate. Hence, this is the region in which the resolution of X-ray CT for image-based modelling has the greatest impact.

摘要

饱和与非饱和孔洞型多孔介质(即土壤)中的流动本质上是多尺度的。土壤团聚体复杂的微孔结构和更宽的孔洞提供了多种流动路径,并且受到了X射线计算机断层扫描(CT)领域的极大关注,人们一直致力于以更高分辨率进行成像。通过多尺度均匀化,我们推导了平均方程来研究微观结构对宏观流动的影响。平均模型通过一系列胞元问题捕捉潜在的几何结构,并通过与全结构数值模拟的直接比较进行验证。这些方法显著减少了计算时间,使我们能够在台式计算机上对复杂几何形状进行三维计算。结果表明,团聚体的表面粗糙度对流动的影响比团聚体内的微观结构大得多。因此,这是基于图像建模的X射线CT分辨率影响最大的区域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3486/3896057/caef2c8d009c/rspa20130383-g1.jpg

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