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Dynamics and control of high-reynolds-number flow over open cavities
Clarence Worth Rowley
, David R. Williams
Mechanical & Aerospace Engineering
Princeton Institute for Computational Science and Engineering
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Review article
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peer-review
385
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Keyphrases
Recent Advances
100%
Oscillation
100%
High Reynolds number Flow
100%
Open Cavity
100%
Limited Range
50%
Canonical Problems
50%
Flow Condition
50%
Feedback Control
50%
Design Methodology
50%
Self-sustaining
50%
Dynamical Model
50%
Closed-loop
50%
Aerospace Applications
50%
Actuator
50%
Cavity Flow
50%
Cavity Flow Oscillation
50%
External Disturbances
50%
Cavity Oscillations
50%
Boundary Layer Turbulence
50%
Fundamental Limitations
50%
Feedback Design
50%
Loop Technique
50%
Flow Control Technique
50%
Engineering
Open Loop
100%
High Reynolds Number Flow
100%
Open Cavity
100%
Cavity Flow
100%
Closed Loop
50%
Feedback Control System
50%
Flow Condition
50%
Limitations
50%
Control Flow
50%
Limited Range
50%
Aerospace Applications
50%
Boundary Layer Turbulence
50%
External Disturbance
50%
Earth and Planetary Sciences
High Reynolds Number
100%
Cavity Flow
100%
Feedback Control
50%
Boundary Layer
50%
Actuator
50%
Flow Control
50%