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Computational SimulationNo Access

NUMERICAL SIMULATIONS OF DROP DEFORMATION IN A CYLINDRICAL TUBE USING MOVING AND FIXED GRID METHODS

    https://doi.org/10.1142/S0217979208047067Cited by:0 (Source: Crossref)
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    Abstract

    It is quite meaningful in an engineering aspect to investigate liquid drop behaviors in two-phase flow, on which dispersive mixing or overall rheological characteristics heavily depend. There are two approaches numerically to deal with two-phase flow problems, which are the moving- and the fixed-grid methods: that is, interface tracking and interface capturing methods. In this study, we developed multiphase flow codes in both Lagrangian and Eulerian frameworks and compared each solution for the single drop problem in an axisymmetric channel flow. Deformation patterns of drops were observed by these two methods and we have discussed the characteristic features of two methods from the deformation of drop for the moving boundary problems.

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