Archivio Istituzionale della RicercaA new approach for solving flow in Discrete Fracture Networks (DFN) is developed in this work by means of the Virtual Element Method. Taking advantage of the features of the VEM, we obtain global conformity of all fracture meshes while preserving a fracture-independent meshing process. This new approach is based on a generalization of globally conforming Finite Elements for polygonal meshes that avoids complications arising from the meshing process. The approach is robust enough to treat many DFNs with a large number of fractures with arbitrary positions and orientations, as shown by the simulations. Higher order Virtual Element spaces are also included in the implementation with the corresponding convergence results and accuracy aspects.
A globally conforming method for solving flow in discrete fracture networks using the Virtual Element Method / Benedetto, MATIAS FERNANDO; Berrone, Stefano; Scialo', Stefano. - In: FINITE ELEMENTS IN ANALYSIS AND DESIGN. - ISSN 0168-874X. - STAMPA. - 109:(2016), pp. 23-36. [10.1016/j.finel.2015.10.003]
A globally conforming method for solving flow in discrete fracture networks using the Virtual Element Method
BENEDETTO, MATIAS FERNANDO;BERRONE, Stefano;SCIALO', STEFANO
2016
Abstract
A new approach for solving flow in Discrete Fracture Networks (DFN) is developed in this work by means of the Virtual Element Method. Taking advantage of the features of the VEM, we obtain global conformity of all fracture meshes while preserving a fracture-independent meshing process. This new approach is based on a generalization of globally conforming Finite Elements for polygonal meshes that avoids complications arising from the meshing process. The approach is robust enough to treat many DFNs with a large number of fractures with arbitrary positions and orientations, as shown by the simulations. Higher order Virtual Element spaces are also included in the implementation with the corresponding convergence results and accuracy aspects.
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https://hdl.handle.net/11583/2602373
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