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A DATA-BASED ONE-LAYER FORMULATION OF THE TWO-EQUATION RANS MODELS
Xiaohan Hu
, George Huang
,
Robert Kunz
,
Xiang Yang
Mechanical Engineering
Research output
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Chapter in Book/Report/Conference proceeding
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Dive into the research topics of 'A DATA-BASED ONE-LAYER FORMULATION OF THE TWO-EQUATION RANS MODELS'. Together they form a unique fingerprint.
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Keyphrases
Data-centric
100%
Buffer Layer
100%
RANS Model
100%
Law of the Wall
100%
Boundary Layer
50%
Pressure Gradient
50%
Zero Pressure Gradient
50%
Two-layer
50%
Experimental Dataset
50%
Deceleration
50%
Physical Scaling
50%
Revised Model
50%
Boundary Plane
50%
Source Term
50%
Direct numerical Simulation
50%
Pressure Channel
50%
Skin Friction
50%
Additional Term
50%
Plane Channel
50%
Essential Structures
50%
Wall Layer
50%
Varying Pressure
50%
Flat Plate Boundary Layer
50%
Robust Prediction
50%
Logarithmic Law
50%
Dissipation Term
50%
Simulation Datasets
50%
General Law
50%
Viscous Sublayer
50%
Logarithmic Layer
50%
Engineering
Buffer Layer
100%
Pressure Gradient
100%
Physical Scaling
50%
Boundary Layer
50%
Source Term
50%
Shortfall
50%
Logarithmic Law
50%
Flat Plate Boundary Layer
50%
Additional Term
50%
Direct Numerical Simulation
50%
Dissipation Term
50%
Skin Friction
50%
Viscous Sublayer
50%
Mathematics
Pressure Gradient
100%
Boundary Layer
100%
Flat Plate
50%
Shortfall
50%
Source Term
50%
Computer Science
Viscous Sublayer
50%