Near-interface modeling in large-eddy simulation of two-phase turbulent flow
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hdl:2117/334035
Tipus de documentText en actes de congrés
Data publicació2020
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Abstract
The smallest hydrodynamic length scales in interfacial turbulent flow are located at the interface between phases/fluids as a result of two-way coupling phenomena. These interface-generated scales are, typically, several times smaller than that of the dissipative scales in the surrounding bulk flow as characterized by Kolmogorov's theory. Consequently, the cost of performing large-eddy simulations of this type of flow deviates significantly from its theoretical optimum toward values in the order of the direct numerical simulation of turbulence. Therefore, to maintain the cost of scale-resolving approaches linear with respect to the Reynolds number, this work investigates the modeling of the small-scale fluid motions in the vicinity of two-phase interfaces in turbulent flows. Given the resemblance between the flow structures in the near-interface regions and those found in the boundary layers of turbulent wall-bounded flow, the modeling methodology proposed is inspired by ideas developed for turbulent flows interacting with solid walls, but modified to capture slip-velocity effects between phases/fluids. The performance of the approach is a priori assessed by utilizing data from direct numerical simulations of decaying isotropic turbulence laden with droplets of super-Kolmogorov size, demonstrating its feasibility and potential for reducing the cost of large-eddy simulation studies of two-phase turbulence.
CitacióJofre, L.; Dodd, M. Near-interface modeling in large-eddy simulation of two-phase turbulent flow. A: European Congress on Computational Methods in Applied Sciences and Engineering. "Proceedings of the 8th European Congress on Computational Methods in Applied Sciences and Engineering". 2020, p. 1-14.
Versió de l'editorhttps://www.eccomas.org/publications/conference-proceedings/
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