Abstract
A simple morphological model is considered which describes the interaction between a tidal flow and an erodible bed in a shallow sea. The basic state of this model describes a spatially uniform tide over a flat bottom where the flow vector is represented as a tidal ellipse. The linear stability of this solution is analysed with respect to bed form perturbations. Results are presented for both a uni-directional and circular tide. In the former case the wave-length and the orientation of the fastest growing bed mode agree well with those of tidal sand banks. However, this model only predicts the growth of large-scale sand ridges. With a simplified numerical model we tentatively show that the effects of secondary currents on the sediment transport trigger the formation of instabilities at an essentially smaller scale, viz, sand waves. Another limitation of a model with uni-directional tides is that no selective modes found are the first to become unstable if the model parameters are varied. In the case of a circular tide, critical model parameters are found below which the basic state is stable. We conclude that this provides a starting point for the development of a weakly non-linear analysis, which will yield information on the amplitude behaviour of marginally growing bed forms.
| Original language | English |
|---|---|
| Pages (from-to) | 1183-1204 |
| Number of pages | 22 |
| Journal | Continental Shelf Research |
| Volume | 13 |
| Issue number | 11 |
| DOIs | |
| Publication status | Published - Nov 1993 |
Funding
Acknowledgements--The work presented herein was carried out as part of the "G8 Coastal Morphodynamics" research programme. It was funded jointly by Delft Hydraulics, in the framework of the Netherlands Centre for Coastal Research, and the Commission of the European Communities, Directorate General for Science, Research and Development, under contract no. MAS2-CT92-0027.