Reports

The following reports are part of the Annual Research Briefs from the Center for Turbulence Research, Stanford University.

W. H. R. Chan, A. Lozano-Durán and P. Moin. "Cascade-based Eulerian-to-Lagrangian subgrid-scale modeling of bubble breakup in breaking waves." (2020)

S. Mirjalili and W. H. R. Chan. "Linear stability of a thin fluid film interacting with its surrounding bulk fluid." (2020)

H. Hwang, W. H. R. Chan, S. S. Jain and S. I. Abarzhi. "Linear two-dimensional Rayleigh-Taylor dynamics with variable acceleration: Comparisons between theory and simulations." (2020)

W. H. R. Chan and P. L. Johnson. "Locality in the bubble breakup cascade." (2019)

K. P. Griffin, S. S. Jain, T. J. Flint and W. H. R. Chan. “Investigation of quantum algorithms for direct numerical simulation of the Navier-Stokes equations.” (2019)

W. H. R. Chan, M. S. Dodd, P. L. Johnson, J. Urzay and P. Moin. "Formation and dynamics of bubbles in breaking waves: Part I. Algorithms for the identification of bubbles and breakup/coalescence events." (2018) [Alternate link]

W. H. R. Chan, M. S. Dodd, P. L. Johnson, J. Urzay and P. Moin. "Formation and dynamics of bubbles in breaking waves: Part II. The evolution of the bubble size distribution and breakup/coalescence statistics." (2018) [Alternate link]

W. H. R. Chan, J. Urzay and P. Moin. "Development of a collision detection algorithm for turbulent two-phase flows." (2017) [Alternate link]

W. H. R. Chan and M. J. P. Hack. "Floquet stability analysis of two-phase flows." (2017) [Alternate link]

W. H. R. Chan, J. Urzay, A. Mani and P. Moin. "On the development of a subgrid-scale model for the generation of micro-bubbles from impacting liquid surfaces." (2016) [Alternate link]

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