Observer-based control of vortex motion in a combustor recirculation region

Author

Tadmor, Gilead ; Banaszuk, Andrzej

Author_Institution

Dept. of Electr. & Comput. Eng., Boston Univ., MA, USA

Volume

10

Issue

5

fYear

2002

fDate

9/1/2002 12:00:00 AM

Firstpage

749

Lastpage

755

Abstract

Established paradigms for observers design are yet a missing component in efforts to introduce feedback control of turbulent flows. This case study concerns tracking a reference orbit in a combustor recirculation zone. Actuation is by perturbations of a corner potential, and the sensed output is fluid velocity at a single boundary point. Control design is based on a single vortex model. In recognition of unquantified discrepancies between actual dynamics and the model, a simple constant gain design is a guiding principle. This restricts pointwise vortex-position estimates to a neighborhood of the rest point. Cruder information on Hamiltonian energy dynamics is obtained directly from the sensed signal, during larger deviations, and is used in a dissipative integral feedback, driving the vortex into the observable neighborhood

Keywords

chemically reactive flow; combustion; confined flow; feedback; flow control; furnaces; observers; turbulence; vortices; Hamiltonian energy dynamics; boundary point fluid velocity; combustor recirculation region; combustor recirculation zone; corner potential perturbations; dissipative integral feedback; feedback control; observable neighborhood; observer design paradigms; observer-based control; pointwise vortex-position estimates; reference orbit tracking; turbulent flows; vortex motion; Combustion; Control design; Control systems; Feedback control; Fluid dynamics; Motion control; Noise reduction; Nonlinear control systems; Stability; State feedback;

fLanguage

English

Journal_Title

Control Systems Technology, IEEE Transactions on

Publisher

ieee

ISSN

1063-6536

Type

jour

DOI

10.1109/TCST.2002.801784

Filename

1028130