Add to ORKGThis paper presents a two-phase flow model that simulates the fluid and sediment motions in the sheet flow region under oscillatory conditions. Some major forcing terms such as the fluid/particle and particle/particle interactions and turbulent stresses are included in the model. By improving some assumptions of most existing models, the present model specifies the equivalent sand roughness and bed concentration as a function of the Shields parameter, which is variable with time and is physically more realistic over a mobile flat bed. A wave friction factor, which is governed by a new parameter, is obtained from the present model formulation. The present model is shown to provide a more accurate estimate for sediment concentrations than tho...
AbstractA number of turbulence closure schemes can be employed to numerically investigate near-bed w...
The inception of the sheet flow regime as well as the effects of the phase lag when the sheet flow r...
For the first time, detailed measurements of sediment concentrations and grain velocities inside the...
In the past few years, two-phase models have been developed to describe the detail behaviour of flui...
In this paper, a two-phase flow model is presented which simulates the fluid and sediment motions in...
A numerical model for the general description of the sediment transport under oscillatory sheet flow...
We study erosion depth and sediment fluxes for wave-induced sheet-flow, and their dependency on grai...
International audienceIn this paper, two-phase flow simulations of oscillatory sheet flow experiment...
[1] A two-phase model is implemented to study the effects of wave shape on the transport of coarse-g...
To predict sediment transport under oscillatory sheet flow condition, especially for fine sand, is s...
Sand transport beneath large waves occurs in the plane-bed, sheet-flow regime. Comparisons between t...
The overall objective is to develop and test with laboratory and field observations a model that pre...
Sheet flow corresponds to the high velocity regime when small bed ripples are washed out and sand is...
A number of turbulence closure schemes can be employed to numerically investigate near-bed wave boun...
Most models of sediment transport are based on the hypothesis of a weak interaction between the flui...
AbstractA number of turbulence closure schemes can be employed to numerically investigate near-bed w...
The inception of the sheet flow regime as well as the effects of the phase lag when the sheet flow r...
For the first time, detailed measurements of sediment concentrations and grain velocities inside the...
In the past few years, two-phase models have been developed to describe the detail behaviour of flui...
In this paper, a two-phase flow model is presented which simulates the fluid and sediment motions in...
A numerical model for the general description of the sediment transport under oscillatory sheet flow...
We study erosion depth and sediment fluxes for wave-induced sheet-flow, and their dependency on grai...
International audienceIn this paper, two-phase flow simulations of oscillatory sheet flow experiment...
[1] A two-phase model is implemented to study the effects of wave shape on the transport of coarse-g...
To predict sediment transport under oscillatory sheet flow condition, especially for fine sand, is s...
Sand transport beneath large waves occurs in the plane-bed, sheet-flow regime. Comparisons between t...
The overall objective is to develop and test with laboratory and field observations a model that pre...
Sheet flow corresponds to the high velocity regime when small bed ripples are washed out and sand is...
A number of turbulence closure schemes can be employed to numerically investigate near-bed wave boun...
Most models of sediment transport are based on the hypothesis of a weak interaction between the flui...
AbstractA number of turbulence closure schemes can be employed to numerically investigate near-bed w...
The inception of the sheet flow regime as well as the effects of the phase lag when the sheet flow r...
For the first time, detailed measurements of sediment concentrations and grain velocities inside the...