International audienceA numerical method to compute the nonlinear Fluid-Structure Interactions (FSI) of yacht sails is presented in this paper. The inviscid lifting-line flow model is used by including a quadrature method to efficiently compute sail pressure loads. The structural calculation is performed with a quasi-static resolution by using a dynamic backward Euler scheme, in order to improve the computation convergence. A specific thickness sail approach is also proposed to make the FSI solving easier. The assembly of these flow and structural methods leads to a fast and robust strategy to compute nonlinear FSI on yacht sails, and the proposed approach is applied on a complex semi-rigid composite mainsail
The process of designing a sail can be a challenging task because of the difficulties in predicting ...
In this paper, the numerical simulation of the fluid-structure interaction (FSI) between the wind an...
This thesis focuses on the numerical simulation of yacht sails using both computational fluid dynami...
International audienceA numerical method to compute the nonlinear Fluid-Structure Interactions (FSI)...
International audienceA numerical method to compute the nonlinear Fluid-Structure Interactions (FSI)...
International audienceThe present work takes place in the framework of the “Jib Sea” project. The ma...
International audiencehe present work takes place in the framework of the “Jib Sea” project. The mai...
The spreading of high computational resources at very low costs led, over the years, to develop new ...
The dynamic Fluid Structure Interaction (FSI) of yacht sails submitted to a harmonic pitching motion...
This article presents a novel method to compute in an efficient way, the coupled fluid-structure non...
Although competitive sailing yachts may sail fast today this is mainly due to material progress, not...
ABSTRACTMost yacht sails are made of thin fabric, and they have a cambered shape to generate lift fo...
ABSTRACT: A Matlab-FEM code has been developed for deformation analysis of sails as a MSc final proj...
A numerical investigation of the dynamic Fluid Structure Interaction (FSI) of a yacht sail plan subm...
The process of designing a sail can be a challenging task because of the difficulties in predicting ...
In this paper, the numerical simulation of the fluid-structure interaction (FSI) between the wind an...
This thesis focuses on the numerical simulation of yacht sails using both computational fluid dynami...
International audienceA numerical method to compute the nonlinear Fluid-Structure Interactions (FSI)...
International audienceA numerical method to compute the nonlinear Fluid-Structure Interactions (FSI)...
International audienceThe present work takes place in the framework of the “Jib Sea” project. The ma...
International audiencehe present work takes place in the framework of the “Jib Sea” project. The mai...
The spreading of high computational resources at very low costs led, over the years, to develop new ...
The dynamic Fluid Structure Interaction (FSI) of yacht sails submitted to a harmonic pitching motion...
This article presents a novel method to compute in an efficient way, the coupled fluid-structure non...
Although competitive sailing yachts may sail fast today this is mainly due to material progress, not...
ABSTRACTMost yacht sails are made of thin fabric, and they have a cambered shape to generate lift fo...
ABSTRACT: A Matlab-FEM code has been developed for deformation analysis of sails as a MSc final proj...
A numerical investigation of the dynamic Fluid Structure Interaction (FSI) of a yacht sail plan subm...
The process of designing a sail can be a challenging task because of the difficulties in predicting ...
In this paper, the numerical simulation of the fluid-structure interaction (FSI) between the wind an...
This thesis focuses on the numerical simulation of yacht sails using both computational fluid dynami...