Sheet flow sediment transport under waves with acceleration skewness and boundary layer streaming
Contribuinte(s) |
H. F. Burcharth |
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Data(s) |
01/07/2006
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Resumo |
The effect of acceleration skewness on sheet flow sediment transport rates (q) over bar (s) is analysed using new data which have acceleration skewness and superimposed currents but no boundary layer streaming. Sediment mobilizing forces due to drag and to acceleration (similar to pressure gradients) are weighted by cosine and sine, respectively, of the angle phi(.)(tau)phi(tau) = 0 thus corresponds to drag dominated sediment transport, (q) over bar (s)similar to vertical bar u(infinity)vertical bar u(infinity), while phi(tau) = 90 degrees corresponds to total domination by the pressure gradients, (q) over bar similar to du(infinity)/dt. Using the optimal angle, phi = 51 degrees based on that data, good agreement is subsequently found with data that have strong influence from boundary layer streaming. Good agreement is also maintained with the large body of U-tube data simulating sine waves with superimposed currents and second-order Stokes waves, all of which have zero acceleration skewness. The recommended model can be applied to irregular waves with arbitrary shape as long as the assumption negligible time lag between forcing and sediment transport rate is valid. With respect to irregular waves, the model is much easier to apply than the competing wave-by-wave models. Issues for further model developments are identified through a comprehensive data review. |
Identificador | |
Idioma(s) |
eng |
Publicador |
Elsevier |
Palavras-Chave | #Sheet flow #Bed load #Sediment transport #Acceleration skewness #Boundary layer streaming #290899 Civil Engineering not elsewhere classified #770400 Coastal and Estuarine Environment |
Tipo |
Journal Article |