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Physical insight into the accuracy of finely-resolved iLES in turbulent boundary layers
Konstantinos Ritos
, Ioannis W. Kokkinakis
,
Dimitris Drikakis
Department of Engineering
University of Strathclyde
Research output
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Contribution to journal
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Article
›
peer-review
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Dive into the research topics of 'Physical insight into the accuracy of finely-resolved iLES in turbulent boundary layers'. Together they form a unique fingerprint.
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Keyphrases
Physical Insights
100%
Implicit Large Eddy Simulation
100%
Turbulent Boundary Layers
100%
High-order
25%
Degree of Asymmetry
25%
Skewness
25%
Anisotropy
25%
Conservation Laws
25%
Centered Schemes
25%
Weighted Essentially Non-oscillatory
25%
Compressible Turbulent Boundary Layer
25%
Physical Representation
25%
Degree of Anisotropy
25%
Numerical Accuracy
25%
Physical Perspective
25%
Material Science
Large Eddy Simulation
100%
Turbulent Boundary Layer
100%
Anisotropy
40%
Engineering
Turbulent Boundary Layer
100%
Experimental Result
20%
Oscillatory
20%
Flatness
20%
Centered Scheme
20%
Numerical Accuracy
20%
Conservation Law
20%
Computer Science
Experimental Result
100%
Physical Representation
100%