Fluid‐structure interaction (FSI) in nuclear reactor fuel assemblies is a multidisciplinary research area that explores the interplay between the coolant flow and the structural elements of fuel ...

Fluid–structure interaction (FSI) and immersed boundary methods (IBMs) form the cornerstone of modern computational techniques that couple fluid dynamics with elastic or rigid body mechanics. These ...

Previous methods for studying fluid-structure interactions with deformable structures — both experimental and computational — ...

Aquaculture, which has existed since 1000 BCE, is gaining widespread recognition for its potential to provide sustainable fish products. This form of farming, also known as captive breeding, is the go ...

The FSI capability lets users solve complex multidisciplinary design problems involving coupled fluid flow and structural phenomena such as blood flow in the body or turbulence loading on a lowering ...

The dynamic response of the capsule-airbags system during interaction with both regular and irregular waves at Ux=12m/s is systematically analyzed across three characteristic phases: initial impact, ...

Seismic design, qualification, and risk assessment of liquid-filled advanced nuclear reactors will rely on verified and validated numerical models for seismic fluid-structure interaction (FSI) ...

Extreme pressures come with high-speed flight. The resulting aerodynamic forces can bring significant risk to deforming the components of the vehicle in motion -- even to the point of aeroelastic ...

A fascination with fish gills has led researchers at Cornell to develop a bio-inspired approach to mixing heat and molecules ...

Keywords: Earthquake engineering, Seismic fluid-structure interaction, Verification and validation of numerical models, ALE, ICFD, Fluid-filled advanced reactors, ARPA-E Abstract: This report presents ...