The interaction of a developed train of gravity deep water waves with suddenly applied winds is investigated in this manuscript. The direction of the wind is the same as that of the wave train (i.e., following) and its imposed surface shear stress is constant and steady. The focus of this study is on a micro-scale water wave field where the time scale is on the order of ten wave periods and the length scale is on the order of ten wave lengths. Accurate 2D Reynolds-averaged Navier–Stokes (RANS) multi-phase simulations of Navier–Stokes equations are performed in a Eulerian framework to capture the flow features, induced by the wave field and the surface wind. The sufficiently large spatial domain in the horizontal direction, combined with the...
Past studies have shown that there is a wave-enhanced, near-surface mixed-layer in which the dissipa...
Two manuscripts are presented which develop a numerical method for studying boundary layer flow and ...
The breaking of gravity water waves induces both strong turbulence near the free surface and air–wat...
The interaction of a developed train of gravity deep water waves with suddenly applied winds is inve...
This study investigates the effects of wind–wave processes in a coupled wave–ocean circulation model...
Long term goals are to observe and model turbulent transfer of momentum between the atmosphere and o...
The net movement of Lagrangian particles under water waves comprises a Stokes drift in the direction...
Kukulka, TobiasUpper ocean turbulence, generated by wind and wave forcing, directly controls air-se...
A DNS simulation has been performed in order to study the wind-wave interaction, especially focusing...
Large-eddy and interface simulation using an interface tracking-based multi-fluid flow solver is con...
Understanding the role of breaking surface waves in air-sea exchange processes is integral to accura...
The dispersion and transport of single inertial particles through an oscillatory turbulent aquatic e...
In open-water environment, the interaction of progressive surface waves with the shear turbulence ge...
The ocean-atmosphere interface is a complex boundary layer with waves, as its most important feature...
The effect of wind on the wave breaking induced by the modulational instability is investigated nume...
Past studies have shown that there is a wave-enhanced, near-surface mixed-layer in which the dissipa...
Two manuscripts are presented which develop a numerical method for studying boundary layer flow and ...
The breaking of gravity water waves induces both strong turbulence near the free surface and air–wat...
The interaction of a developed train of gravity deep water waves with suddenly applied winds is inve...
This study investigates the effects of wind–wave processes in a coupled wave–ocean circulation model...
Long term goals are to observe and model turbulent transfer of momentum between the atmosphere and o...
The net movement of Lagrangian particles under water waves comprises a Stokes drift in the direction...
Kukulka, TobiasUpper ocean turbulence, generated by wind and wave forcing, directly controls air-se...
A DNS simulation has been performed in order to study the wind-wave interaction, especially focusing...
Large-eddy and interface simulation using an interface tracking-based multi-fluid flow solver is con...
Understanding the role of breaking surface waves in air-sea exchange processes is integral to accura...
The dispersion and transport of single inertial particles through an oscillatory turbulent aquatic e...
In open-water environment, the interaction of progressive surface waves with the shear turbulence ge...
The ocean-atmosphere interface is a complex boundary layer with waves, as its most important feature...
The effect of wind on the wave breaking induced by the modulational instability is investigated nume...
Past studies have shown that there is a wave-enhanced, near-surface mixed-layer in which the dissipa...
Two manuscripts are presented which develop a numerical method for studying boundary layer flow and ...
The breaking of gravity water waves induces both strong turbulence near the free surface and air–wat...