Your search keyword '"Department of Aerodynamics and Fluid Mechanics"' showing total 2 results

1. Chaotic motion of light particles in an unsteady three-dimensional vortex: experiments and simulation.

Author

Vanyó J, Vincze M, Jánosi IM, and Tél T

Subjects

Time Factors, Motion, Nonlinear Dynamics

Abstract

We study the chaotic motion of a small rigid sphere, lighter than the fluid in a three-dimensional vortex of finite height. Based on the results of Eulerian and Lagrangian measurements, a sequence of models is set up. The time-independent model is a generalization of the Burgers vortex. In this case, there are two types of attractors for the particle: a fixed point on the vortex axis and a limit cycle around the vortex axis. Time dependence might combine these regular attractors into a single chaotic attractor, however its robustness is much weaker than what the experiments suggest. To construct an aperiodically time-dependent advection dynamics in a simple way, Gaussian noise is added to the particle velocity in the numerical simulation. With an appropriate choice of the noise properties, mimicking the effect of local turbulence, a reasonable agreement with the experimentally observed particle statistics is found.

Published

2014

2. Torque measurements and numerical determination in differentially rotating wide gap Taylor-Couette flow.

Author

Merbold S, Brauckmann HJ, and Egbers C

Subjects

Computer Simulation, Rotation, Torque, Energy Transfer, Models, Theoretical, Rheology methods

Abstract

We investigate experimentally and numerically turbulent Taylor-Couette flow with independently rotating cylinders and radius ratio η=0.5. The torque acting on the inner wall is measured to analyze the transverse current of azimuthal motion J(ω). The scaling of the torque with shear Reynolds number is determined for the outer cylinder at rest. For constant shear Reynolds number we investigate various ratios of angular velocities and find a torque maximum for counter-rotating cylinders that deviates from the prediction suggested by van Gils et al. [J. Fluid Mech. 706, 118 (2012)]. The direct comparison between the experiment and the numerical simulation shows a good agreement in the torques.

Published

2013