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A Physically Consistent Reduced Order Model for Plasma Aeroelastic Control on Compressor Blades
Zitatschlüssel 2019_motta_jgtp
Autor Motta, V. and Malzacher, L. and Bicalho Civinelli de Almeida, V. and Phan, T. D. and Liebich, R. and Peitsch, D. and Quaranta, G.
Seiten GTP-19-1090
Jahr 2019
ISSN 0742-4795
DOI 10.1115/1.4043545
Journal Journal of Engineering for Gas Turbines and Power
Jahrgang 141
Nummer 9
Monat 05
Notiz 091001,
Technische Universität Berlin:
V. Motta, L. Malzacher, V. Bicalho Civinelli de Almeida,
T. D. Phan, R. Liebich, D. Peitsch
Politecnico di Milano:
G. Quaranta
Verlag ASME
Zusammenfassung Plasma actuators may be successfully employed as virtual control surfaces, located at the trailing edge (TE) of blades, both on the pressure and on the suction side, to control the aeroelastic response of a compressor cascade. Actuators generate an induced flow against the direction of the freestream. As a result, actuating on the pressure side yields an increase in lift and nose down pitching moment, whereas the opposite is obtained by operating on the suction side. A properly phased alternate pressure/suction side actuation allows to reduce vibration and to delay the flutter onset. This paper presents the development of a linear frequency domain reduced order model (ROM) for lift and pitching moment of the plasma-equipped cascade. Specifically, an equivalent thin airfoil model is used as a physically consistent basis for the model. Modifications in the geometry of the thin airfoil are generated to account for the effective chord and camber changes induced by the plasma actuators, as well as for the effects of the neighboring blades. The model reproduces and predicts correctly the mean and the unsteady loads, along with the aerodynamic damping on the plasma equipped cascade. The relationship between the parameters of the ROM with the flow physics is highlighted.
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