On the Mechanics of Flow-Induced Vibration of Soft Corals and Particle Interception

- Type I, obtained for the quasi-zero attack angles of the SR = 1. 5 case, exhibits a clear VIV response in the lowest velocities range, though far below the critical velocity, and

Numerically [6, 7], the flow around a wall mounted cylinder has shown the evolution of the drag coefficient C D , the dimensionless drag force defined later, as well as the

Sections 3 and 4 show some numerical simulations illustrating the kinematics of particles, fibres and spheroids, immersed in a simple shear flow, either by integrating the

To conclude, the slight but measurable differences observed in the stress for a given value of the packing fraction, upon a change of the Poisson’s ratio of the particles, are

- Type I, obtained for the quasi-zero attack angles of the SR = 1. 5 case, exhibits a clear VIV response in the lowest velocities range, though far below the critical velocity, and

It is found that in that range of solid fraction (between 0.3 and 0.4), the inhomogeneous motion of the particles leads to significant differences in velocity fluctuations as well as

passage from multifrequency to monofrequency reponses: the phase difference between inline and crossflow motions exhibits a zigzagging pattern along cylinder span and

To simulate particle impacts on detector surfaces, two models have been developed to introduce meteoric smoke particles in the gas flow and to determine their trajectories