Generation, Measurement and Suppression of Large Scale Vorticity in Internal Flows

Generation, Measurement and Suppression of Large Scale Vorticity in Internal Flows

The main objectives are not only to develop recommended procedures for control of large scale swirling and secondary flows, but also to extract from empirical observations general concepts which design and test engineers could adapt for 'tailoring and manipulating' their own special flows...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: Wigeland,R A, Ahmed,M, Nagib,H M
Format: Report
Sprache:eng
Schlagworte:
AIRFOILS
AUTOCORRELATION
AXISYMMETRIC FLOW
BOUNDARY LAYER CONTROL
Design
DUCTS
FLOW FIELDS
Flow manipulators
FLUIDIC CONTROL
Fluidics and Fluerics
FREE STREAM
Helicopters
HOT WIRE ANEMOMETERS
Internal flow
JET FLOW
JET VANES
MANIPULATORS
MINIATURIZATION
MODIFICATION
PERFORATION
Rotational flow
SECONDARY FLOW
Superimposition
SUPPRESSORS
Swirl flow
Swirl generation
SWIRLER VANES
Tangenital jets
Test Facilities, Equipment and Methods
TRANSFORMATIONS
TURBULENT FLOW
VORTICES
WAKE
WIND TUNNEL TESTS
WIND TUNNELS
WING TIPS
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Beschreibung
Zusammenfassung:The main objectives are not only to develop recommended procedures for control of large scale swirling and secondary flows, but also to extract from empirical observations general concepts which design and test engineers could adapt for 'tailoring and manipulating' their own special flows with different rotational characteristics. Several typical rotational flows were generated and superimposed on the flow through the test section. Careful calibration was carried out using hot-wire anemometers, and miniature vane-vorticity indicators. These flows represent the basic target conditions to be controlled by inserting various flow manipulators: honeycombs, screens and perforated plates. Comparison of the characteristics of the flow downstream of the manipulators (e.g., distribution of streamwise vorticity) to the original test flows provides a measure of the efficacy of the manipulators in suppressing large scale vorticity as well as clues to dominant mechanisms of the flow transformations.