Investigation of turbulent superstructures in Rayleigh-Bénard convection by Lagrangian particle tracking of fluorescent microspheres

Kurzfassung

We present spatially and temporally resolved velocity and acceleration measurements of turbulent Rayleigh-B\'enard convection (RBC) in the entire fluid sample of square horizontal cross section with length $L=320$\,mm and height $H=20$\,mm, resulting in an aspect ratio of $\Gamma=H/L=16$. The working fluid was water with a Prandtl number of \Pran =7 and the Rayleigh-number was set to $\Ra = 1.1\times10^6$. In order to minimize surface reflections we used fluorescent polyethylene microspheres as tracer particles that were imaged at a rate of 19\,Hz by six cameras. From the images the particle positions, velocities, and accelerations were determined via the "Shake-The-Box" (STB) Lagrangian particle tracking algorithm. With this approach, we could simultaneously track more than 300,000 particles and hence study the resulting turbulent structures in the Eulerian and Lagrangian frames while resolving the smallest spatial and temporal scales of the flow.