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Direct numerical simulation of multiphase flow for arbitrary geometry using level contour reconstruction method Seungwon Shin
The Journal of Mechanical Science and Technology, vol. 23, no. 7, pp.1795-1800, 2009
Abstract : Direct numerical simulation of multiphase flow on fixed Eulerian grid became increasingly popular due to its simplicity
and robustness. Some of the well-known methods include VOF, Level Set, Phase field, and Front Tracking
method. Lately, hybridization of above methods gets its attention to overcome the disadvantages pertaining to each
method. One hybrid approach developed by the author is the Level Contour Reconstruction Method (LCRM) which
combines characteristics of both Front Tracking and Level Set method. Many engineering problems also contain complex
geometry as boundary condition and proper representation of grid structure plays very important role for the successful
outcomes. In this paper, an algorithm for handling arbitrary geometry inside fixed Eulerian computational domain
with multiphase flow has been presented. Interface reconstruction between liquid and vapor phase has been performed
outside of arbitrary solid boundary explicitly along with dynamic contact angle model. Sharp interface technique
using ghost fluid point extrapolation method has been utilized for correct implementation of no-slip boundary
condition at the wall.
Keyword :
Numerical simulation; Multiphase flow; Arbitrary geometry; Ghost point method
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