Fluid–structure interaction modelling of parachute soft-landing dynamics

## Abstract We focus on fluid–structure interaction (FSI) modeling and performance analysis of the ringsail parachutes to be used with the Orion spacecraft. We address the computational challenges with the latest techniques developed by the T★AFSM (Team for Advanced Flow Simulation and Modeling) in

## Abstract The modified ghost fluid method (MGFM) developed by Liu __et al__. (__J. Comput. Phys__. 2003; **190**:651–681) provides us a robust method to treat moving compressible gas–gas and gas–liquid interfaces. Recently, the MGFM was extended to treat compressible fluid‐compressible structure

## Abstract In this paper, the implementation of a 3‐D parallel CFD code using the meshless method. Reproducing Kernel Particle Method (RKPM) is described. A novel procedure for implementing the essential boundary condition using the hierarchical enrichment method is presented. The Total Arbitrary

Two mechanical models have been presented in this paper for structural failure prediction of piping systems conveying liquids subjected to pressure transients. One model takes into account the axial fluid-structure interaction (FSI) phenomenon between fluid and pipe motion, whereas the other refers

A Lagrangian displacement-based #uid element has been developed to model large amplitude free surface motion of nearly incompressible viscous #uids in a tank of rectangular cross-section under dynamic excitation for tuned liquid damper applications. The penalty method is employed to enforce the near

## Abstract We address the computational challenges related to the extraction of the arterial‐lumen geometry, mesh generation and starting‐point determination in the computation of arterial fluid–structure interactions (FSI) with patient‐specific data. The methods we propose here to address those c