Add to ORKGAbstract: A simple unidirectional nonlinear model is presented for the study of the combined effect of mud-induced wave dissipation and 3-wave interactions on wave evolution over muddy environments. The model is used to simulate wave conditions typical for a muddy shallow shelf. Mud-induced long-wave dissipation introduces in the spectral cascade an energy sink which modifies 3-wave interaction behavior to produce net energy transport from short to long waves. Numerical experiments support the hypothesis that the process drains energy from high-frequency bands which would otherwise be unaffected by bottom dissipation mechanisms
The available experimental results have shown that in time-periodic motion the rheology of fluid mud...
The interaction between the wave and fluid mud layer plays an important role in the development of s...
The mud banks present picturesque instances of large- scale natural damping of sea surface waves. Wh...
We analyse theoretically the interaction between water waves and a thin layer of fluid mud on a slop...
[1] Muddy seafloors cause tremendous dissipation of ocean waves. Here, observations and numerical si...
Spectral wave transformation in shallow water is investigated by examining nonlinear and linear bott...
The goals of this project are to investigate the mechanisms for wave dissipation in the presence of ...
To improve the understanding of the effect of a muddy seafloor on wave\ud dynamics, a new data set, ...
Abstract. Wave propagation on the Louisiana inner shelf is studied us-ing concurrent measurements at...
Abstract. Field observations and numerical model predictions are used to investigate the effects of ...
Wave-current interaction with cohesive sediment is a complex and not fully resolved prob-lem. Contra...
A numerical model is extended to investigate the nonlinear dynamics of surface wave propagation over...
On numerous locations in the world mud occurs in front of the coast close to river mouths. This mud ...
ABSTRACT: In coastal areas, wave-mud interaction is an important mechanism of wave attenuation. The ...
Extensive mud deposits are found off Cassino Beach, Brazil. The wave damping over the muddy bottom w...
The available experimental results have shown that in time-periodic motion the rheology of fluid mud...
The interaction between the wave and fluid mud layer plays an important role in the development of s...
The mud banks present picturesque instances of large- scale natural damping of sea surface waves. Wh...
We analyse theoretically the interaction between water waves and a thin layer of fluid mud on a slop...
[1] Muddy seafloors cause tremendous dissipation of ocean waves. Here, observations and numerical si...
Spectral wave transformation in shallow water is investigated by examining nonlinear and linear bott...
The goals of this project are to investigate the mechanisms for wave dissipation in the presence of ...
To improve the understanding of the effect of a muddy seafloor on wave\ud dynamics, a new data set, ...
Abstract. Wave propagation on the Louisiana inner shelf is studied us-ing concurrent measurements at...
Abstract. Field observations and numerical model predictions are used to investigate the effects of ...
Wave-current interaction with cohesive sediment is a complex and not fully resolved prob-lem. Contra...
A numerical model is extended to investigate the nonlinear dynamics of surface wave propagation over...
On numerous locations in the world mud occurs in front of the coast close to river mouths. This mud ...
ABSTRACT: In coastal areas, wave-mud interaction is an important mechanism of wave attenuation. The ...
Extensive mud deposits are found off Cassino Beach, Brazil. The wave damping over the muddy bottom w...
The available experimental results have shown that in time-periodic motion the rheology of fluid mud...
The interaction between the wave and fluid mud layer plays an important role in the development of s...
The mud banks present picturesque instances of large- scale natural damping of sea surface waves. Wh...