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Publications about 'Spatially-evolving flows'
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W. Ran.
Modeling and analysis of parallel and spatially-evolving wall-bounded shear flows.
PhD thesis,
University of Southern California,
2020.
Keyword(s): Boundary layers,
Boundary layer receptivity,
Control-oriented modeling,
Distributed systems,
Drag reduction,
Energy amplification,
Floquet theory,
Flow modeling and control,
Free-stream turbulence,
Low-complexity modeling,
Navier-Stokes equations,
Parabolized Floquet equations,
Parabolized stability equations,
Riblets,
Sensor-free flow control,
Spatially-evolving flows,
Spatially-periodic systems,
Spatio-temporal frequency responses,
Stochastically-forced Navier-Stokes equations,
Transition to turbulence,
Turbulence modeling.
[bibtex-entry]
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W. Ran,
A. Zare,
M. J. P. Hack,
and M. R. Jovanovic.
Stochastic receptivity analysis of boundary layer flow.
Phys. Rev. Fluids,
4(9):093901 (28 pages),
September 2019.
Keyword(s): Boundary layers,
Boundary layer receptivity,
Control-oriented modeling,
Distributed systems,
Energy amplification,
Flow modeling and control,
Free-stream turbulence,
Low-complexity modeling,
Navier-Stokes equations,
Spatially-evolving flows,
Transition to turbulence.
[bibtex-entry]
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W. Ran,
A. Zare,
M. J. P. Hack,
and M. R. Jovanovic.
Boundary layer receptivity analysis via the algebraic Lyapunov equation.
In Proceedings of the 2020 AIAA SciTech Forum and Exposition,
Orlando, FL,
pages 0109 (15 pages),
2020.
Keyword(s): Boundary layers,
Boundary layer receptivity,
Control-oriented modeling,
Distributed systems,
Energy amplification,
Flow modeling and control,
Free-stream turbulence,
Low-complexity modeling,
Navier-Stokes equations,
Spatially-evolving flows,
Transition to turbulence.
[bibtex-entry]
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W. Ran,
A. Zare,
M. J. P. Hack,
and M. R. Jovanovic.
Relating global and local stochastic receptivity analysis of boundary layer flows.
In Proceedings of the 2019 American Control Conference,
Philadelphia, PA,
pages 3212-3217,
2019.
Note: (Invited paper).
Keyword(s): Boundary layers,
Boundary layer receptivity,
Control-oriented modeling,
Distributed systems,
Energy amplification,
Flow modeling and control,
Free-stream turbulence,
Low-complexity modeling,
Navier-Stokes equations,
Spatially-evolving flows,
Transition to turbulence.
[bibtex-entry]
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W. Ran,
A. Zare,
M. J. P. Hack,
and M. R. Jovanovic.
Low-complexity stochastic modeling of spatially-evolving flows.
In Proceedings of the 2017 American Control Conference,
Seattle, WA,
pages 3815-3820,
2017.
Note: (Invited paper).
Keyword(s): Flow modeling and control,
Low-complexity modeling,
Parabolized stability equations,
Spatially-evolving flows,
Transition to turbulence,
Turbulence modeling.
[bibtex-entry]
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W. Ran,
A. Zare,
M. J. P. Hack,
and M. R. Jovanovic.
Low-complexity stochastic modeling of spatially-evolving flows.
In Proceedings of the 2016 Summer Program,
Center for Turbulence Research, Stanford University/NASA,
pages 285-294,
2016.
Keyword(s): Flow modeling and control,
Low-complexity modeling,
Parabolized stability equations,
Spatially-evolving flows,
Transition to turbulence,
Turbulence modeling.
[bibtex-entry]
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Last modified: Sat Oct 5 22:00:41 2024
Author: mihailo.
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