Large-Eddy simulation of the flow around a finite-length triangular prism

The flow around a finite triangular prism placed vertically on a plane is studied numerically using the Large-Eddy Simulation approach. The results are compared with available and new experimental data in order to obtain clues on the physical origin of the velocity fluctuations inside and around the wake. Both the numerical and the experimental velocity signals are analysed through time-frequency techniques based on the wavelet and Hilbert transform in order to characterize the time variation of the amplitude and frequency of the different detectable fluctuating components. It is shown that the numerical simulation, even if relating to a Reynolds number that is one order of magnitude lower than in the experiments, allows the shape of the upper near wake to be defined, and provides useful indications on the dynamics of the vorticity structures originating from the free-end of the body and on their possible connection with the wake fluctuating flow field.