How to Cite
Abstract
The upgrade of existing coastal defense structures by including crown walls and parapets may represent an effective and economic solution to reduce the wave overtopping discharge. Recently, a coefficient gs_GP for the parametrization of the effects induced by berms or promenades, crown walls and parapets on the average q has been developed. The formula for gs_GP was obtained from the Genetic Programming (GP) technique and was conceived to be included in the q formulae by EurOtop Manual (2018). The formula has been applied so far only to smooth dikes with crown walls. The aim of this contribution is to investigate the extension of the formula for gs_GP to a wider range of coastal structures, such as crown walls on top of rubble mound breakwaters and vertical seawalls. The ultimate objective is to provide a new design factor to be used in the EurOtop formulae.Recorded Presentation from the vICCE (YouTube Link): https://youtu.be/2xWPJeXPRco
References
EurOtop (2018). Manual on wave overtopping of sea defences and related Structures. Second Edition. Allsop, Bruce, DeRouck, Kortenhaus, Pullen, Schüttrumpf, Troch, Van der Meer and Zanuttigh.
Formentin and Zanuttigh (2019). A Genetic Programming based formula for wave overtopping by crown walls and bullnoses, Coastal Engineering 152, 103529.
Pourzangbar, Losada, Saberc, Rasoul Aharid, Larroudé, Vaezif and Brocchini. (2017). Prediction of non-breaking wave induced scour depth at the trunk section of breakwaters using Genetic Programming and Artificial Neural Networks, Coastal Engineering 121, 107-118.
Van Doorslaer, De Rouck, Audenaert and Duquet. (2015). Crest modifications to reduce wave overtopping of non- breaking waves over a smooth dike slope, Coastal Engineering, 101, 69-88.