A framework for closed-loop flow control using the parabolized stability equations
Communication avec acte
Auteur
CAVALIERI, André V. G.
560912 Acoustique, Aérodynamique, Turbulence [Institut Pprime] [2AT ]
471029 Instituto Tecnológico de Aeronáutica [São José dos Campos] [ITA]
560912 Acoustique, Aérodynamique, Turbulence [Institut Pprime] [2AT ]
471029 Instituto Tecnológico de Aeronáutica [São José dos Campos] [ITA]
JORDAN, Peter
131861 University of Groningen [Groningen]
300463 École Nationale Supérieure de Mécanique et d’Aérotechnique [Poitiers] [ISAE-ENSMA ]
560912 Acoustique, Aérodynamique, Turbulence [Institut Pprime] [2AT ]
131861 University of Groningen [Groningen]
300463 École Nationale Supérieure de Mécanique et d’Aérotechnique [Poitiers] [ISAE-ENSMA ]
560912 Acoustique, Aérodynamique, Turbulence [Institut Pprime] [2AT ]
Résumé
We develop a reduced-order-model framework using the parabolized stability equations and identification techniques for the closed-loop control of unsteady fluctuations along fluidic systems. These models had been successfully applied to a turbulent jet as estimation techniques and to an incompressible shear-layer for the development of closed-loop control laws. Through this paper, we propose a further investigation of the PSE-based transfer functions, exploring its flexibility to educe different control schemes and to determine the most effective sensor/actuator positions. Emphasis is be given to the feedforward and feedback configurations for flow control, and differences are understood in terms of causality. A study of the robustness to uncertainties in Reynolds and mean flow velocity, along with external perturbations is also presented. These topics allow deeper insight into the active closed-loop flow control problem and therefore may lead to more effective schemes, particularly on what concerns the experimental implementation of closed-loop control.
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Article dans une revue avec comité de lectureSASAKI, Kenzo; TISSOT, Gilles; CAVALIERI, André V. G.; SILVESTRE, Flávio J.; JORDAN, Peter; BIAU, Damien (Springer Verlag, 2018)In this study the parabolized stability equations (PSE) are used to build reduced-order-models (ROMs) given in terms of frequency and time-domain transfer functions (TFs) for application in closed-loop control. The control ...
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Communication avec acteSASAKI, Kenzo; TISSOT, Gilles; CAVALIERI, André V. G.; SILVESTRE, Flávio J.; JORDAN, Peter; BIAU, Damien (American Institute of Aeronautics and Astronautics, 2016)This study aims at the attenuation of the unsteady fluctuations along a two-dimensional mixing layer which may be considered as a prototypical problem for the evaluation of es- timation and control techniques, and also a ...
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Article dans une revue avec comité de lectureConsidering the first significant digits (noted image) in data sets of dissipation for turbulent flows, the probability to find a given number (image or 2 or …9) would be 1/9 for a uniform distribution. Instead the probability ...
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Article dans une revue avec comité de lectureA restricted nonlinear (RNL) model, obtained by partitioning the state variables into streamwise-averaged quantities and superimposed perturbations, is used in order to track the exact coherent state in plane channel flow ...
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Article dans une revue avec comité de lectureOscillatory Stokes flows, with zero mean, are subjected to subcritical transition to turbulence. The maximal energy growth of perturbations is computed in the subcritical regime through an optimisation method. The results ...