This numerical study explores the physical processes involved in breaking waves. The two-dimensional, incompressible, unsteady Navier–Stokes equations are solved in sufficiently refined grids to capture viscous and capillary effects. The immiscible interface, characterized by a jump in density and viscosity, is embedded in the domain and a hybrid front tracking/capturing method is used to characterize the moving interface of this multiphase flow. A parametric study is conducted to assess the role of surface tension, Reynolds number, density, and viscosity on the breaking process, as well as their role in the vorticity redistribution and energy dissipation beneath the surface. © 2004 American Institute of Physics.Peer Reviewedhttp://deepblue...
Laboratory experiments are conducted to study two-dimensional unsteady breaking waves in finite-dept...
A two-phase numerical model for viscous and incompressible fluids is presented and is validated for ...
Many applications of wave interaction with a floating structure can be suitably approximated using p...
International audienceNumerical simulations describing plunging breakers including the splash-up phe...
The mechanisms governing the energy dissipation in wave breaking processes are investigated numerica...
This fluid dynamics video was submitted to the gallery of fluid motion at the 2009 APS/DFD conferenc...
A multi-phase fluid method has been adopted to model the behaviour of fragmenting interfaces. The fl...
The two-dimensional flow induced by the breaking of modulated wave trains is numerically investigate...
International audienceWe investigate the influence of capillary effects on wave breaking through dir...
A two-phase flow model, which solves the flow in the air and water simultaneously, is presented for ...
We present direct numerical simulation of breaking waves in shallow water generated by the wave plat...
Large-eddy and interface simulation using an interface tracking-based multi-fluid flow solver is con...
The dissipation mechanisms characterizing wave breaking processes are analysed starting from the res...
Sources of vorticity are examined for a laboratory-generated spilling breaking wave. Two cases are s...
The breaking of gravity water waves induces both strong turbulence near the free surface and air–wat...
Laboratory experiments are conducted to study two-dimensional unsteady breaking waves in finite-dept...
A two-phase numerical model for viscous and incompressible fluids is presented and is validated for ...
Many applications of wave interaction with a floating structure can be suitably approximated using p...
International audienceNumerical simulations describing plunging breakers including the splash-up phe...
The mechanisms governing the energy dissipation in wave breaking processes are investigated numerica...
This fluid dynamics video was submitted to the gallery of fluid motion at the 2009 APS/DFD conferenc...
A multi-phase fluid method has been adopted to model the behaviour of fragmenting interfaces. The fl...
The two-dimensional flow induced by the breaking of modulated wave trains is numerically investigate...
International audienceWe investigate the influence of capillary effects on wave breaking through dir...
A two-phase flow model, which solves the flow in the air and water simultaneously, is presented for ...
We present direct numerical simulation of breaking waves in shallow water generated by the wave plat...
Large-eddy and interface simulation using an interface tracking-based multi-fluid flow solver is con...
The dissipation mechanisms characterizing wave breaking processes are analysed starting from the res...
Sources of vorticity are examined for a laboratory-generated spilling breaking wave. Two cases are s...
The breaking of gravity water waves induces both strong turbulence near the free surface and air–wat...
Laboratory experiments are conducted to study two-dimensional unsteady breaking waves in finite-dept...
A two-phase numerical model for viscous and incompressible fluids is presented and is validated for ...
Many applications of wave interaction with a floating structure can be suitably approximated using p...