Add to ORKGRipple formation beneath sea waves is analyzed both by experimental and analytical means when the bottom is made up of a mixture of sands. An oscillatory flow is obtained in a closed duct by the oscillations of two rigidly connected pistons located at the ends of the duct. The amplitude and period of the oscillations can be continuously varied. A fixed tray, located at the bottom of the duct and filled with different types of sediments, allows ripple formation to be observed. The presence of graded sediments is found to have a stabilizing effect and causes longer ripples to appear. Moreover a selective sediment transport is observed and quantified which tends to pile up the coarse grains at ripple crests leaving the fine ones in the troughs...
We investigate the formation of small-scale three-dimensional bedforms due to interactions of an ero...
An oscillatory flow over a cohesionless bottom can produce regular three-dimensional bedforms known ...
Bedform roughness, caused by ripples on the seabed, plays an important role in controlling sediment ...
This study presents a predictive theory of ripple formation beneath sea waves. The theory is based o...
In the present paper we formulate a predictive theory of the formation of sand ripples under sea wav...
Ripple formation under sea waves is investigated by means of a linear stability analysis of a hat sa...
Sea ripples are small-scale bedforms which originate from the interaction of an oscillatory flow wit...
Ripples are generated and modified by wind-generated waves and their profiles are controlled by the ...
n the present paper we formulate a theory to predict the time development of sand ripples characteri...
Sediment bedload transport and bedform formation are considered for both steady and oscillatory flow...
International audienceThis work deals with the dynamics of sand ripples which occur on a flat sandy ...
A new method has been developed that models the changes a wave-formed rippled sediment bed undergoes...
International audienceThis paper reports on a series of experiments that aim to provide a fuller und...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering,...
The development of sand ripples in an oscillatory-flow water tunnel was observed in 104 laboratory e...
We investigate the formation of small-scale three-dimensional bedforms due to interactions of an ero...
An oscillatory flow over a cohesionless bottom can produce regular three-dimensional bedforms known ...
Bedform roughness, caused by ripples on the seabed, plays an important role in controlling sediment ...
This study presents a predictive theory of ripple formation beneath sea waves. The theory is based o...
In the present paper we formulate a predictive theory of the formation of sand ripples under sea wav...
Ripple formation under sea waves is investigated by means of a linear stability analysis of a hat sa...
Sea ripples are small-scale bedforms which originate from the interaction of an oscillatory flow wit...
Ripples are generated and modified by wind-generated waves and their profiles are controlled by the ...
n the present paper we formulate a theory to predict the time development of sand ripples characteri...
Sediment bedload transport and bedform formation are considered for both steady and oscillatory flow...
International audienceThis work deals with the dynamics of sand ripples which occur on a flat sandy ...
A new method has been developed that models the changes a wave-formed rippled sediment bed undergoes...
International audienceThis paper reports on a series of experiments that aim to provide a fuller und...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering,...
The development of sand ripples in an oscillatory-flow water tunnel was observed in 104 laboratory e...
We investigate the formation of small-scale three-dimensional bedforms due to interactions of an ero...
An oscillatory flow over a cohesionless bottom can produce regular three-dimensional bedforms known ...
Bedform roughness, caused by ripples on the seabed, plays an important role in controlling sediment ...