New viewpoint on the mechanism of laminar separation flutter

Zhen Lyu, H. D. Lim, Weiwei Zhang

Research output: Contribution to journalArticlepeer-review

Abstract

At transitional Reynolds numbers, an elastically supported airfoil oscillating in pitch can undergo laminar separation flutter (LSF), which is characterized by self-sustained small-amplitude oscillations. To gain insight into the mechanism of LSF, we conduct wind tunnel tests for 41;570 < Re < 83;140 to investigate the LSF response of a freely rotating NACA0015 airfoil with various structural natural frequencies and positions of the elastic axis. The experimental results show that the dominant mode of flow around the NACA0015 airfoil abruptly changes at Re  68;600, resulting in a change in the trend of LSF response. Then, an aeroelastic model is constructed to explain how the instability of LSF arises. This model can accurately predict the LSF frequency of airfoils with various structural natural frequencies. Moreover, based on the aeroelastic model, we perform linear stability analysis on the aeroelastic system and propose the instability criterion for LSF as jα0 < 0. This instability criterion is identical to that for rotational galloping of square cylinder, indicating that LSF and rotational galloping of square cylinder are essentially the same aeroelastic phenomenon that appears in different aerodynamic profiles.

Original languageEnglish
Pages (from-to)3032-3044
Number of pages13
JournalAIAA Journal
Volume61
Issue number7
DOIs
StatePublished - Jul 2023

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