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Relaminarisation of ReT = 100 channel flow with globally stabilising linear feedback control

Relaminarisation of ReT = 100 channel flow with globally stabilising linear feedback control
Relaminarisation of ReT = 100 channel flow with globally stabilising linear feedback control
The problems of nonlinearity and high dimension have so far prevented a complete solution of the control of turbulent flow. Addressing the problem of nonlinearity, we propose a flow control strategy which ensures that the energy of any perturbation to the target profile decays monotonically. The controller’s estimate of the flow state is similarly guaranteed to converge to the true value. We present a one-time off-line synthesis procedure, which generalises to accommodate more restrictive actuation and sensing arrangements, with conditions for existence for the controller given in this case. The control is tested in turbulent channel flow (Res¼100) using full-domain sensing and actuation on the wall-normal velocity. Concentrated at the point of maximum inflection in the mean profile, the control directly counters the supply of turbulence energy arising from the interaction of the wall-normal perturbations with the flow shear. It is found that the control is only required for the larger-scale motions, specifically those above the scale of the mean streak spacing. Minimal control effort is required once laminar flow is achieved. The response of the near-wall flow is examined in detail, with particular emphasis on the pressure and wall-normal velocity fields, in the context of Landahl’s theory of sheared turbulence.
1070-6631
125105
Sharma, A.S.
cdd9deae-6f3a-40d9-864c-76baf85d8718
Morrison, J.F.
2bf55390-c5d4-411f-8798-937c8f1c4c56
McKeon, B.J.
2e685015-292a-42a7-8c9e-7cc27cf2da67
Limebeer, D.J.N.
7c57c622-c8ca-4541-b030-d36f07beca80
Koberg, W.H.
aaacc16d-705e-4e7b-a939-2421dff888b3
Sherwin, S.J.
09645be9-8f45-4748-9b5e-f567c1140bf3
Sharma, A.S.
cdd9deae-6f3a-40d9-864c-76baf85d8718
Morrison, J.F.
2bf55390-c5d4-411f-8798-937c8f1c4c56
McKeon, B.J.
2e685015-292a-42a7-8c9e-7cc27cf2da67
Limebeer, D.J.N.
7c57c622-c8ca-4541-b030-d36f07beca80
Koberg, W.H.
aaacc16d-705e-4e7b-a939-2421dff888b3
Sherwin, S.J.
09645be9-8f45-4748-9b5e-f567c1140bf3

Sharma, A.S., Morrison, J.F., McKeon, B.J., Limebeer, D.J.N., Koberg, W.H. and Sherwin, S.J. (2011) Relaminarisation of ReT = 100 channel flow with globally stabilising linear feedback control. Physics of Fluids, 23 (12), 125105. (doi:10.1063/1.3662449).

Record type: Article

Abstract

The problems of nonlinearity and high dimension have so far prevented a complete solution of the control of turbulent flow. Addressing the problem of nonlinearity, we propose a flow control strategy which ensures that the energy of any perturbation to the target profile decays monotonically. The controller’s estimate of the flow state is similarly guaranteed to converge to the true value. We present a one-time off-line synthesis procedure, which generalises to accommodate more restrictive actuation and sensing arrangements, with conditions for existence for the controller given in this case. The control is tested in turbulent channel flow (Res¼100) using full-domain sensing and actuation on the wall-normal velocity. Concentrated at the point of maximum inflection in the mean profile, the control directly counters the supply of turbulence energy arising from the interaction of the wall-normal perturbations with the flow shear. It is found that the control is only required for the larger-scale motions, specifically those above the scale of the mean streak spacing. Minimal control effort is required once laminar flow is achieved. The response of the near-wall flow is examined in detail, with particular emphasis on the pressure and wall-normal velocity fields, in the context of Landahl’s theory of sheared turbulence.

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Published date: 2011
Organisations: Aerodynamics & Flight Mechanics Group

Identifiers

Local EPrints ID: 350132
URI: http://eprints.soton.ac.uk/id/eprint/350132
DOI: doi:10.1063/1.3662449
ISSN: 1070-6631
PURE UUID: eb09e29d-9d48-4ad5-946a-f6847a1b1bc7
ORCID for A.S. Sharma: ORCID iD orcid.org/0000-0002-7170-1627

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Date deposited: 25 Mar 2013 10:19
Last modified: 15 Mar 2024 03:46

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Author: A.S. Sharma ORCID iD
Author: J.F. Morrison
Author: B.J. McKeon
Author: D.J.N. Limebeer
Author: W.H. Koberg
Author: S.J. Sherwin

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