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An analytical model of vertical water entry for 2D asymmetric bodies with flow separation

Abstract : The vertical water entry of asymmetric two-dimensional bodies with flow separation is considered. As long as there is no flow separation, linearised Wagner's theory combined with the Modified Logvinovich Model has been shown to provide computationally fast and reliable estimates of slamming loads during water entry. Tassin et al. (2014) introduced the Fictitious Body Continuation (FBC) concept as a way to extend the use of Wagner's theory to separated flow configurations, but they only considered symmetric bodies. In the present study, we investigate the ability of the FBC concept to provide accurate estimates of slamming loads for asymmetric bodies. In this case, flow separation may not occur simultaneously on both sides of the body. During an intermediate phase, slamming loads are governed by a competition between the local drop in pressure due to partial flow separation and the ongoing expansion of the wetted area. As a first benchmark for the model, we consider the water entry of an inclined flat plate and compare the FBC estimates with the results of a nonlinear model. Then, we consider the case of a foil and compare the FBC results with Computational Fluid Dynamics predictions. In both cases, we find that the FBC model is able to provide reliable estimates of the slamming loads.
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https://hal.archives-ouvertes.fr/hal-02461976
Contributeur : Romain Hascoët <>
Soumis le : vendredi 31 janvier 2020 - 08:47:26
Dernière modification le : mercredi 1 avril 2020 - 01:59:25

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  • HAL Id : hal-02461976, version 1

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Romain Hascoet, Nicolas Jacques, Yves-Marie Scolan, Alan Tassin. An analytical model of vertical water entry for 2D asymmetric bodies with flow separation. 24éme Congrès Français de Mécanique, Aug 2019, Brest, France. ⟨hal-02461976⟩

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