Experimental Grey Box Model Identification and Control of an Active Gas Bearing

Sinha, JK; Santos, Ilmar F.; Theisen, Lukas Roy Svane; Blanke, Mogens; Niemann, Henrik; Pierart, Fabian G.

Abstract

Gas bearings have inherent dynamics that gives rise to low damping and potential instability at certain rotational speeds. Required damping and stabilization properties can be achieved by active flow control if bearing parameters are known. This paper deals with identification of parameters in a dynamic model of an active gas bearing and subsequent control loop design. A grey box model is determined based on experiments where piezo actuated valves are used to perturb the journal and hence excite the rotor-bearing system. Such modelling from actuator to output is shown to efficiently support controller design, in contrast to impact models that focus on resonance dynamics. The identified model is able to accurately reproduce the lateral dynamics of the rotor-bearing system in a desired operating range, in this case around the first two natural frequencies. The identified models are validated and used to design a model-based controller capable of improving the damping of the gas bearing. Experimental impact responses show an increase in damping by a factor nine for the investigated conditions.

Más información

Título según WOS: ID WOS:000349710900085 Not found in local WOS DB
Título de la Revista: VIBRATION ENGINEERING AND TECHNOLOGY OF MACHINERY
Volumen: 23
Editorial: SPRINGER-VERLAG BERLIN
Fecha de publicación: 2015
Página de inicio: 963
Página final: +
DOI:

10.1007/978-3-319-09918-7_85

Notas: ISI