Igor A. Bolotnov scite author profile

The presented research evaluates the interaction between a single bubble and homogeneous turbulent flow using direct numerical simulation (DNS) approach. The homogeneous single-phase turbulence is numerically generated by passing a uniform flow through grid planes. The turbulence decay rate is compared with experiment-based correlation. The single phase turbulence is then used as an inflow boundary condition for a set of single bubble studies. By estimating the turbulent field around the fully resolved bubble, the effects of bubble deformability, turbulent intensity and relative velocity on the bubble-induced turbulence are investigated. The existence of bubble creates new vortices in the wake region and the enhancement of turbulence is observed in the region behind the bubble. The results show that the magnitude of the turbulence enhancement would increase as the bubble encounters larger liquid turbulent intensity or higher relative velocity.

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Turbulent cascade modeling of single and bubbly two-phase turbulent flows

Bolotnov

Lahey

Drew

et al. 2008

International Journal of Multiphase Flow

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Igor A. Bolotnov

Spectral analysis of turbulence based on the DNS of a channel flow

Detached direct numerical simulations of turbulent two-phase bubbly channel flow

Machine-learning based error prediction approach for coarse-grid Computational Fluid Dynamics (CG-CFD)

Evaluation of bubble-induced turbulence using direct numerical simulation

Turbulent cascade modeling of single and bubbly two-phase turbulent flows

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