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W3010397814 startingPage "103259" @default.
W3010397814 abstract "In this paper a numerical solver is developed in the OpenFOAM to capture the interface effects and dynamic characteristics of two-phase viscoelastic-Newtonian fluid flow for single and multi-mode viscoelastic models in linear and non-linear regimes. The code is based on finite volume method and the PIMPLE algorithm is used to couple the velocity and pressure terms. The dynamic mesh technique is used to model the movement of the computational domain and a modified classic volume-of-fluid approach is employed to capture the interface effects. In order to enhance the stability of the numerical procedure the discrete elastic split stress method is employed and introduced into the momentum equation. The present numerical model is validated in the linear regime by comparing the results with those of the analytical solution for which excellent agreement is observed. The main objective of this study is to investigate the effects of various angular frequencies, amplitudes and volume fractions on the flow dynamics of partial vitreous liquefaction in a two-dimensional model of the vitreous chamber subjected to sinusoidal motions. Concentric and eccentric configurations of the liquefaction are considered with the initial circular shape inside a cavity. Numerical results are obtained for the velocity field, shear stress, normal stress difference and streamline pattern and it is discussed how the partial vitreous liquefaction responds to the different oscillatory movements in comparison with a normal, healthy vitreous gel. It is observed that in concentric cases, the maximum values of shear stress and tangential velocity intensify by increasing angular frequency and their locations move from the wall into the domain of the cavity. In eccentric configurations significant interface deformations are observed. Moreover, the results indicate that the shear and normal stress values in the eccentric cases are higher compared to those in the concentric configurations." @default.
W3010397814 created "2020-03-13" @default.
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W3010397814 date "2020-06-01" @default.
W3010397814 modified "2023-09-23" @default.
W3010397814 title "Numerical investigation of partially liquefied vitreous dynamics as two-phase viscoelastic-Newtonian fluid flow in a planar cavity due to oscillatory motion" @default.
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W3010397814 doi "https://doi.org/10.1016/j.ijmultiphaseflow.2020.103259" @default.
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