An efficient and accurate algebraic interface capturing method for unstructured grids in 2 and 3 dimensions: The THINC method with quadratic surface representation |
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| Authors: | B Xie S Ii F Xiao |
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| Affiliation: | 1. Department of Energy Sciences, Tokyo Institute of Technology, Midori‐ku, Yokohama, Japan;2. Graduate School of Engineering Science, Osaka University, Toyonaka, Osaka, Japan |
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| Abstract: | We present in this paper an efficient and accurate volume of fluid (VOF) type scheme to compute moving interfaces on unstructured grids with arbitrary quadrilateral mesh elements in 2D and hexahedral elements in 3D. Being an extension of the multi‐dimensional tangent of hyperbola interface capturing (THINC) reconstruction proposed by the authors in Cartesian grid, an algebraic VOF scheme is devised for arbitrary quadrilateral and hexahedral elements. The interface is cell‐wisely approximated by a quadratic surface, which substantially improves the numerical accuracy. The same as the other THINC type schemes, the present method does not require the explicit geometric representation of the interface when computing numerical fluxes and thus is very computationally efficient and straightforward in implementation. The proposed scheme has been verified by benchmark tests, which reveal that this scheme is able to produce high‐quality numerical solutions of moving interfaces in unstructured grids and thus a practical method for interfacial multi‐phase flow simulations. Copyright © 2014 John Wiley & Sons, Ltd. |
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| Keywords: | multi‐phase fluid dynamics moving interface interface capturing scheme unstructured grid volume of fluid method THINC method quadratic surface fitting |
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