Prediction and investigation of the turbulent flow over a rotating disk

Mathematics

• Rotating Disk 100%
• Turbulent Flow 86%
• Prediction 56%
• Turbulent Boundary Layer 37%
• Cross-flow 35%
• Large Eddy Simulation 34%
• Fluctuations 33%
• Structural Model 30%
• Shear Stress 30%
• Sweep 28%
• Buffer 27%
• Vortex 24%
• Vorticity 24%
• Slope 22%
• Radial velocity 19%
• Structural Similarity 18%
• Entrainment 18%
• Energy Spectrum 16%
• Spatial Correlation 16%
• Odd function 15%
• Normal Surface 15%
• Mass Conservation 15%
• Baseline 12%
• Reynolds number 12%
• Dimensionality 12%
• Discrepancy 11%
• Momentum 11%
• Predict 11%
• Boundary Layer 10%
• Profile 10%
• Similarity 10%
• Evidence 9%
• Interaction 8%
• Three-dimensional 8%
• Boundary conditions 7%
• Decompose 7%

Physics & Astronomy

• rotating disks 81%
• turbulent flow 66%
• predictions 38%
• large eddy simulation 26%
• turbulent boundary layer 25%
• ejection 24%
• vorticity 23%
• shear stress 21%
• buffers 19%
• slopes 17%
• two dimensional boundary layer 17%
• three dimensional boundary layer 17%
• wall pressure 15%
• entrainment 13%
• radial velocity 11%
• upstream 11%
• conservation 11%
• boundary layers 10%
• energy spectra 9%
• Reynolds number 9%
• decomposition 8%
• boundary conditions 8%
• momentum 8%
• profiles 6%
• interactions 4%

Engineering & Materials Science

• Rotating disks 91%
• Turbulent flow 71%
• Boundary layers 39%
• Vorticity 32%
• Large eddy simulation 31%
• Shear stress 26%
• Vortex flow 24%
• Conservation 13%
• Momentum 13%
• Reynolds number 11%
• Boundary conditions 10%
• Decomposition 10%