A FEM fluid–structure interaction algorithm for analysis of the seal dynamics of a Surface-Effect Ship

A FEM fluid–structure interaction algorithm for analysis of the seal dynamics of a Surface-Effect Ship

This paper shows the recent work of the authors in the development of a time-domain FEM model for evaluation of the seal dynamics of a surface effect ship. The fluid solver developed for this purpose, uses a potential flow approach along with a stream-line integration of the free surface. The paper...

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Bibliographic Details
Published in:Computer methods in applied mechanics and engineering Vol. 295; pp. 290 - 304
Main Authors: García-Espinosa, Julio, Di Capua, Daniel, Serván-Camas, Borja, Ubach, Pere-Andreu, Oñate, Eugenio
Format: Journal Article Publication
Language:English
Published: Elsevier B.V 01-10-2015
Subjects:
Arquitectura naval
BAG
Enginyeria mecànica
Enginyeria naval
Finite element method
Fluid-structure interaction
Hidrodinàmica
Hydrodynamics
Mecànica de fluids
Nàutica
Resistencia
Seal dynamics
Ships
Surface effect ship
Vaixells
Àrees temàtiques de la UPC
Surface effect ship
Finite element method
Fluid–structure interaction
Seal dynamics
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Summary:This paper shows the recent work of the authors in the development of a time-domain FEM model for evaluation of the seal dynamics of a surface effect ship. The fluid solver developed for this purpose, uses a potential flow approach along with a stream-line integration of the free surface. The paper focuses on the free surface-structure algorithm that has been developed to allow the simulation of the complex and highly dynamic behaviour of the seals in the interface between the air cushion, and the water. The developed fluid–structure interaction solver is based, on one side, on an implicit iteration algorithm, communicating pressure forces and displacements of the seals at memory level and, on the other side, on an innovative wetting and drying scheme able to predict the water action on the seals. The stability of the iterative scheme is improved by means of relaxation, and the convergence is accelerated using Aitken’s method. Several validations against experimental results have been carried out to demonstrate the developed algorithm. •Time-domain FEM model for evaluation of the seal dynamics of a surface effect ship.•Focus on the free surface-structure algorithm to simulate complex and highly dynamic behaviour of seals.•Innovative wetting and drying scheme able to predict the water action on the seals.•Validations against experimental results.
ISSN:0045-7825
1879-2138
DOI:10.1016/j.cma.2015.07.010