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Publications about 'Drag reduction'


W. Ran.
Modeling and analysis of parallel and spatiallyevolving wallbounded shear flows.
PhD thesis,
University of Southern California,
2020.
Keyword(s): Boundary layers,
Boundary layer receptivity,
Controloriented modeling,
Distributed systems,
Drag reduction,
Energy amplification,
Floquet theory,
Flow modeling and control,
Freestream turbulence,
Lowcomplexity modeling,
NavierStokes equations,
Parabolized Floquet equations,
Parabolized stability equations,
Riblets,
Sensorfree flow control,
Spatiallyevolving flows,
Spatiallyperiodic systems,
Spatiotemporal frequency responses,
Stochasticallyforced NavierStokes equations,
Transition to turbulence,
Turbulence modeling.
[bibtexentry]

B. K. Lieu.
Dynamics and control of Newtonian and viscoelastic fluids.
PhD thesis,
University of Minnesota,
2014.
Keyword(s): Drag reduction,
Controlling the onset of turbulence,
Control of turbulent flows,
Flow modeling and control,
NavierStokes equations,
Spatiallyperiodic systems,
Traveling waves,
Vibrational control,
Distributed systems theory,
Computational tools for spatially distributed systems,
Uncertainty quantification in PDEs,
Viscoelastic fluids,
Inputoutput analysis,
Elastic turbulence,
Transition to turbulence,
Worstcase amplification.
[bibtexentry]

R. Moarref.
Modelbased control of transitional and turbulent wallbounded shear flows.
PhD thesis,
University of Minnesota,
2012.
Keyword(s): Drag reduction,
Controlling the onset of turbulence,
Control of turbulent flows,
Flow modeling and control,
NavierStokes equations,
Spatiallyperiodic systems,
Traveling waves,
Vibrational control.
[bibtexentry]

M. R. Jovanovic.
From bypass transition to flow control and datadriven turbulence modeling: An inputoutput viewpoint.
Annu. Rev. Fluid Mech.,
53(1):311345,
January 2021.
Keyword(s): Colored noise,
Convex optimization,
Drag reduction,
Energy amplification,
Flow modeling and control,
Inputoutput analysis,
Lowcomplexity modeling,
Lowrank approximation,
Matrix completion problems,
NavierStokes equations,
Nuclear norm regularization,
Simulationfree design,
Structured covariances,
Transition to turbulence,
Turbulence modeling.
[bibtexentry]

W. Ran,
A. Zare,
and M. R. Jovanovic.
Modelbased design of riblets for turbulent drag reduction.
J. Fluid Mech.,
906:A7 (38 pages),
January 2021.
Keyword(s): Drag reduction,
Riblets,
Sensorfree flow control,
Spatiallyperiodic systems,
Spatiotemporal frequency responses,
Stochasticallyforced NavierStokes equations,
Turbulence modeling.
[bibtexentry]

R. Moarref and M. R. Jovanovic.
Modelbased design of transverse wall oscillations for turbulent drag reduction.
J. Fluid Mech.,
707:205240,
September 2012.
Keyword(s): Drag reduction,
Control of turbulent flows,
Flow modeling and control,
Inputoutput analysis,
NavierStokes equations,
Parametric resonance,
Perturbation analysis,
Simulationfree design,
Spanwise wall oscillations,
Timeperiodic systems,
Vibrational control.
[bibtexentry]

W. Ran,
A. Zare,
and M. R. Jovanovic.
Frequencyresponse analysis of riblets for turbulent drag reduction.
In Proceedings of the 24th International Symposium on Mathematical Theory of Network and Systems,
Cambridge, UK,
2020.
Note: Submitted.
Keyword(s): Drag reduction,
Riblets,
Sensorfree flow control,
Spatiallyperiodic systems,
Spatiotemporal frequency responses,
Stochasticallyforced NavierStokes equations,
Turbulence modeling.
[bibtexentry]

W. Ran,
A. Zare,
and M. R. Jovanovic.
Drag reduction in turbulent channel flow over spatially periodic surfaces.
In Proceedings of the 58th IEEE Conference on Decision and Control,
Nice, France,
pages 59185923,
2019.
Keyword(s): Drag reduction,
Riblets,
Sensorfree flow control,
Spatiallyperiodic systems,
Spatiotemporal frequency responses,
Stochasticallyforced NavierStokes equations,
Turbulence modeling.
[bibtexentry]

B. K. Lieu and M. R. Jovanovic.
Modelbased analysis of polymer drag reduction in a turbulent channel flow.
In Proceedings of the 2013 American Control Conference,
Washington, DC,
pages 485490,
2013.
Note: (Invited paper).
Keyword(s): Drag reduction,
Control of turbulent flows,
Flow modeling and control,
Inputoutput analysis,
Energy amplification,
Simulationfree design,
Transition to turbulence,
Viscoelastic fluids.
[bibtexentry]

B. K. Lieu and M. R. Jovanovic.
Analysis of drag reduction by polymers in a turbulent channel flow.
In Proceedings of the 2012 Summer Program,
Center for Turbulence Research, Stanford University/NASA,
pages 6574,
2012.
Keyword(s): Drag reduction,
Control of turbulent flows,
Flow modeling and control,
Inputoutput analysis,
Energy amplification,
Simulationfree design,
Transition to turbulence,
Viscoelastic fluids.
[bibtexentry]

R. Moarref and M. R. Jovanovic.
Turbulent drag reduction by transverse wall oscillations.
In Proceedings of the 2012 American Control Conference,
Montreal, Canada,
pages 33593364,
2012.
Keyword(s): Flow modeling and control,
NavierStokes equations,
Inputoutput analysis,
Energy amplification,
Drag reduction,
Turbulence modeling.
[bibtexentry]

A. Zare,
B. K. Lieu,
and M. R. Jovanovic.
Turbulent drag reduction by streamwise traveling waves.
In Proceedings of the 51th IEEE Conference on Decision and Control,
Maui, HI,
pages 31223126,
2012.
Keyword(s): Drag reduction,
Control of turbulent flows,
Flow modeling and control,
Inputoutput analysis,
NavierStokes equations,
Parametric resonance,
Perturbation analysis,
Simulationfree design,
Streamwise traveling waves,
Spatiallyperiodic systems,
Vibrational control.
[bibtexentry]
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Last modified: Tue May 3 09:45:45 2022
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