Abstract
Nonlinear energy cascade by means of three-wave resonant interactions is a characteristic feature of transitioning and turbulent flows. Resonant wavenumber mismatch between these interacting modes can arise from the dispersive characteristics of the interacting waves and from spectral broadening due to random effects. In this paper, a general technique is presented to estimate the average level of instantaneous wavenumber mismatch, 〈Δk〉=〈km-ki-kj〉, between components whose frequencies obey the resonant selection condition, fm-fi-fj=o. Cross-correlation of the auto-bispectrum is used to quantify the level of mismatch. The concept of bispectrum coupling coherency is introduced to determine the confidence level in the wavenumber mismatch estimates. These techniques are then applied to measure wavenumber mismatch in the transitioning field of a plane wake. The results show that the average of the instantaneous mismatch between the actual interacting modes 〈km-ki-kj〉 is in general not equal to the mismatch between the average wavenumbers of each interacting mode 〈km〉-〈ki〉-〈kj〉.
Original language | English |
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Pages (from-to) | 217-224 |
Number of pages | 8 |
Journal | Experiments in Fluids |
Volume | 18 |
Issue number | 4 |
DOIs | |
State | Published - Feb 1995 |