Field Calculations of Wave Energy Dissipation and Related Beach Profile

AbstractThis paper analyses cross-shore bathymetric profiles between Władysławowo (km 125 of the Polish coastal chainage) and Lake Sarbsko (km 174) done in 2005 and 2011. Spaced every 500 m, they cover beach topography from dune/cliff crests to a seabed depth of about 15 m. They were decomposed by signal processing techniques to extract the monotonic component of beach topography and to perform a straightforward assessment of wave energy dissipation rates. Three characteristic dissipation patterns were identified: one associated with large nearshore bars and 2–3 zones of wave breaking; a second, to which the equilibrium beach profile concept can be applied; and a third, characterized by mixed behaviour. An attempt was then made to interpret these types of wave energy dissipation in terms of local coastal morphological features and the underlying sedimentary characteristics.

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Wave Energy Dissipation in a Shallow Coral Reef Lagoon Using Marine X‐Band Radar Data

Journal of Geophysical Research Oceans ◽

10.1029/2020jc017094 ◽

2021 ◽

Author(s):

W. Navarro ◽

A. Orfila ◽

A. Orejarena‐Rondón ◽

J.C. Velez ◽

S. Lonin

Keyword(s):

Coral Reef ◽

Energy Dissipation ◽

Wave Energy ◽

Radar Data ◽

Wave Energy Dissipation ◽

Reef Lagoon ◽

X Band ◽

Coral Reef Lagoon

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The correlation between ocean wave energy dissipation and ambient noise

The Journal of the Acoustical Society of America ◽

10.1121/1.405921 ◽

1993 ◽

Vol 93 (4) ◽

pp. 2418-2418

Author(s):

Francis C. Felizardo ◽

W. Kendall Melville

Keyword(s):

Energy Dissipation ◽

Wave Energy ◽

Ambient Noise ◽

Ocean Wave ◽

Wave Energy Dissipation ◽

Ocean Wave Energy

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ARPEC: A NOVEL STAGGERED PERFORATED CAISSON FOR WAVE ABSORPTION AND TIDAL FLUSHING

Coastal Engineering Proceedings ◽

10.9753/icce.v36v.structures.26 ◽

2020 ◽

pp. 26

Author(s):

Paolo Sammarco ◽

Leopoldo Franco ◽

Giorgio Bellotti ◽

Claudia Cecioni ◽

Stefano DeFinis

Keyword(s):

Energy Dissipation ◽

Water Flow ◽

Wave Energy ◽

Reflection And Transmission ◽

Wave Energy Dissipation ◽

Wave Absorption ◽

Transmission Coefficients ◽

Open Sea ◽

Caisson Breakwater ◽

Perforated Caisson

An innovative caisson breakwater geometry (patent pending) named "ARPEC" (Anti Reflective PErmeable Caisson) includes openings at all external and internal walls and at lateral (cross) ones, yet in a staggered pattern, to provide a labyrinthian hydraulic communication between the open sea and the internal waters. The complex sinuous water-flow within the consecutive permeable chambers thus favors wave energy dissipation as well as port water flushing and quality, with very low reflection and transmission coefficients. 2D lab model tests demonstrate the system effectiveness.Recorded Presentation from the vICCE (YouTube Link): https://youtu.be/PaUsinYO-Zo

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