Title :
Low-dimensional models for active control of flow separation
Author :
Narayanan, S. ; Khibnik, A.I. ; Jacobson, C.A. ; Kevrekedis, Y. ; Rico-Martinez, R. ; Lust, K.
Author_Institution :
United Technol. Res. Center, East Hartford, CT, USA
Abstract :
We study the spatiotemporal dynamics of flow separation in a planar diffuser to extract reduced-order models that may be used to guide active separation control. Proper orthogonal decomposition of numerical simulation data revealed organized dynamics of the large-scale separated structures. This result, combined with the observation (in simulations as well as laboratory experiments) of limit cycle/quasi-periodic dynamics and spatial symmetry breaking, suggests an underlying low-dimensional dynamical system. Galerkin-based and neural network-based modeling of the POD modal coefficients lead to (parameter dependent) low-dimensional models of separation dynamics. The use of such models for active separation control appears promising
Keywords :
Galerkin method; dynamics; flow control; flow separation; large-scale systems; limit cycles; neurocontrollers; reduced order systems; Galerkin method; active separation control; dynamics; flow separation; large-scale systems; limit cycle; low-dimensional models; neural network; planar diffuser; reduced-order models; spatial symmetry breaking; spatiotemporal dynamics; Data mining; Displays; Hydrodynamics; Jacobian matrices; Laboratories; Large-scale systems; Limit-cycles; Numerical simulation; Spatiotemporal phenomena; Visualization;
Conference_Titel :
Control Applications, 1999. Proceedings of the 1999 IEEE International Conference on
Conference_Location :
Kohala Coast, HI
Print_ISBN :
0-7803-5446-X
DOI :
10.1109/CCA.1999.801135
