Experimental simulation of shoreface nourishments under storm events: a morphological, hydrodynamic, and sediment grain size analysis
Publication date
2011
Authors
Grasso, F.R.
Michallet, H.
Barthélemy, E.
Editors
Advisors
Supervisors
Document Type
Article
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Abstract
This study focuses on barred beach shoreface nourishments physically simulated in a wave flume. The attack of a schematic storm on three different nourishments is analysed. The apex and waning storm phases lead respectively to offshore and onshore sediment transports. Nourishments in the trough and on the outer bar feed the bar and increase wave dissipation offshore. The bar acts as a wave filter and reduces shore erosion (lee effect). In contrast, nourishment on the beach face leads mostly to shore feeding and reconstruction (feeder effect). With successive nourishments, the beach face clearly becomes steeper and onshore sediment transport is reduced during moderate wave climates. The surface grain size analysis reveals marked variations. Coarser sediments are sorted on the bar and the upper beach face. These locations correspond to large wave dissipation zones during the storm apex.
Keywords
Physical modelling, Beach morphodynamics, Sediment transport, Grain size variation, Changing wave climates, Wave skewness