Philippe Maron scite author profile

SUMMARY This work presents a numerical model designed for the simulation of water‐wave impacts on a structure when aeration of the liquid phase is considered. The model is based on a multifluid Navier–Stokes approach in which all fluids are assumed compressible. The numerical method is based on a finite volume algorithm in space and a second order Runge–Kutta method in time. A validation of this model is performed. It shows a good accuracy for acoustic and shock wave propagation in a bubbly liquid and for wave breaking. Copyright © 2011 John Wiley & Sons, Ltd.

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The influence of air on the impact of a plunging breaking wave on a vertical wall using a multifluid model

Plumerault¹,

Astruc²,

Maron³

2012

Coastal Engineering

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A Numerical Model for Aerated-Water Wave Impact on a Coastal Structure

Plumerault

Astruc

Villedieu

et al. 2009

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Méthode d’analyse factorielle appliquée au suivi bathymétrique de l’embouchure de l’Adour

Maron

Rihouey²,

Dubranna³

2004

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Résumé:Une base de données de 36 relevés bathymétriques réalisés entre décembre 2001 et septembre 2003 dans l'embouchure de l'Adour a été étudiée par la technique d'analyse factorielle. Couramment utilisée pour caractériser l'évolution morphodynamique des plages sableuses, cette méthode d'analyse statistique reste rarement employée dans les études de données bathymétriques d'estuaires. Cette étude montre l'intérêt de l'analyse factorielle pour caractériser la dynamique sédimentaire d'une embouchure soumise à l'impact anthropique. L'analyse factorielle permet de réaliser une forte compression des données et simplifie l'analyse du comportement hydrosédimentaire de l'embouchure. Ainsi, Les premiers résultats obtenus ont permis de mettre en évidence des comportements significatifs et laissent entrevoir le développement d'un modèle morphodynamique empirique moyen terme. Abstract:A bathymetric data set of the Adour river mouth, composed from 36 surveys for dates between December 2001 and September 2003, were studied by using Empirical Orthogonal Function (EOF) analysis. EOF has become an established technique for investigating seabed level fluctuations but the use of EOF is currently scarce for estuary studies. This study shows the efficiency of this statistical method to characterize the behavior of a river mouth subjected to dredging activities. EOF consists in an important data compression which simplify the analysis of the river mouth. Hence, The first results underscored significant behavior and would allow to develop an empirical medium-term morphodynamic model.

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Philippe Maron

Fate of mercury species in the coastal plume of the Adour River estuary (Bay of Biscay, SW France)

A numerical model for aerated‐water wave breaking

The influence of air on the impact of a plunging breaking wave on a vertical wall using a multifluid model

A Numerical Model for Aerated-Water Wave Impact on a Coastal Structure

Méthode d’analyse factorielle appliquée au suivi bathymétrique de l’embouchure de l’Adour

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