Popis: |
We investigate how momentum and kinetic energy is transferred between Fourier components (the so-called triad interactions) in measured turbulent flow fields with finite spatial and temporal resolution. We consider the effect of finite, digitally sampled velocity records on the triad interactions and find that Fourier components may interact within a broadened frequency window (finite overlap widths), as compared to the usual integrals over infinite ranges where Fourier components interact by overlapping Dirac delta functions. We also see how the finite domain (temporal and/or spatial) of velocity records has a significant effect on the efficiency of the triad interactions and thereby on the shape and development of measured velocity power spectra. These finite spatial/temporal domains thus influence the measured spatial and temporal development of turbulence, the possibility for non-local interactions and hence also non-equilibrium turbulence, e.g. fractal grid generated turbulence. Finally, we quote results from other companion papers that report results from laboratory and numerical experiments of the time development of velocity power spectra in a turbulent jet flow into which a single or a couple of Fourier modes are injected. |