Decentralized active control of turbulent boundary induced noise and vibration: A numerical investigation - Archive ouverte HAL
Article Dans Une Revue Journal of Vibration and Control Année : 2016

Decentralized active control of turbulent boundary induced noise and vibration: A numerical investigation

Résumé

Noise and vibration induced by turbulent boundary layer (TBL) wall pressure is a widespread issue for aircrafts and vehicles. One way to alleviate this problem is to enhance the structure' s sound isolation performance using active structural acoustic control. It is often difficult and costly to generate TBL excitation in laboratories for academic research, especially when the convection velocity is high. Thus, a numerical investigation in the early stages of research is appropriate. This paper proposes a prototyping method. The updated TBL semi-empirical model is chosen through a detailed survey of relevant literature. A tensioned panel used as a control target is intended to simulate realistic aircraft flight conditions. Decentralized control law is considered for active control. A finite element model is built which takes into account the property of TBL excitation. A model reduction technique is also adopted to decrease the order of the analysis model. Numerical simulation results show that the pre-stress effect and the hydrodynamic coincidence have a significant influence on plate vibro-acoustic performance and control channel number selection. Decentralized control of the tensioned plate structure under the pressure of TBL excitation is revealed in this work. A virtual prototyping loop justifies the control law' s effectiveness for analyzing TBL excitation. Finally, the procedure proposed may be extended to use in other models or real-life applications.
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Dates et versions

hal-03177144 , version 1 (27-10-2023)

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Ming Yuan, Roger Ohayon, Jinhao Qiu. Decentralized active control of turbulent boundary induced noise and vibration: A numerical investigation. Journal of Vibration and Control, 2016, 22 (18), pp.3821-3839. ⟨10.1177/1077546314566441⟩. ⟨hal-03177144⟩
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