| The WALLTURB Project | p. 1 |
| Invited Speakers | |
| The Law of the Wall. Indications from DNS, and Opinion | p. 9 |
| A Web-Services Accessible Turbulence Database and Application to A-Priori Testing of a Matrix Exponential Subgrid Model | p. 21 |
| Modeling Multi-point Correlations in Wall-Bounded Turbulence | p. 29 |
| Theoretical Prediction of Turbulent Skin Friction on Geometrically Complex Surfaces | p. 39 |
| Scaling Turbulent Fluctuations in Wall Layers | p. 51 |
| The WALLTURB LML Experiment | |
| The WALLTURB Joined Experiment to Assess the Large Scale Structures in a High Reynolds Number Turbulent Boundary Layer | p. 65 |
| Calibration of the WALLTURB Experiment Hot Wire Rake with Help of PIV | p. 75 |
| Spatial Correlation from the SPIV Database of the WALLTURB Experiment | p. 85 |
| Two-Point Correlations and POD Analysis of the WALLTURB Experiment Using the Hot-Wire Rake Database | p. 95 |
| Experiments in Flat Plate Boundary Layers | |
| Reynolds Number Dependence of the Amplitude Modulated Near-Wall Cycle | p. 105 |
| Tomographic Particle Image Velocimetry Measurements of a High Reynolds Number Turbulent Boundary Layer | p. 113 |
| Study of Vortical Structures in Turbulent Near-Wall Flows | p. 121 |
| Experiments in Adverse Pressure Gradient Boundary Layers | |
| Two-Point Near-Wall Measurements of Velocity and Wall Shear Stress Beneath a Separating Turbulent Boundary Layer | p. 135 |
| Experimental Analysis of Turbulent Boundary Layer with Adverse Pressure Gradient Corresponding to Turbomachinery Conditions | p. 143 |
| Near Wall Measurements in a Separating Turbulent Boundary Layer with and without Passive Flow Control | p. 151 |
| Boundary Layer Structure and Scaling | |
| On the Relationship Between Vortex Tubes and Sheets in Wall-Bounded Flows | p. 163 |
| Spanwise Characteristics of Hairpin Packets in a Turbulent Boundary Layer Under a Strong Adverse Pressure Gradient | p. 173 |
| The Mesolayer and Reynolds Number Dependencies of Boundary Layer Turbulence | p. 183 |
| A New Wall Function for Near Wall Mixing Length Models Based on a Universal Representation of Near Wall Turbulence | p. 191 |
| DNS and LES | |
| Direct Numerical Simulations of Converging-Diverging Channel Flow | p. 203 |
| Corrections to Taylor's Approximation from Computed Turbulent Convection Velocities | p. 211 |
| A Multi-scale & Dynamic Method for Spatially Evolving Flows | p. 219 |
| Statistics and Flow Structures in Couette-Poiseuille Flows | p. 229 |
| Theory | |
| LES-Langevin Approach for Turbulent Channel Flow | p. 239 |
| A Scale-Entropy Diffusion Equation for Wall Turbulence | p. 249 |
| A Specific Behaviour of Adverse Pressure Gradient Near Wall Flows | p. 257 |
| RANS Modelling | |
| A Nonlinear Eddy-Viscosity Model for Near-Wall Turbulence | p. 269 |
| ASBM-BSL: An Easy Access to the Structure Based Model Technology | p. 277 |
| Introduction of Wall Effects into Explicit Algebraic Stress Models Through Elliptic Blending | p. 287 |
| Dynamical Systems | |
| POD Based Reduced-Order Model for Prescribing Turbulent Near Wall Unsteady Boundary Condition | p. 301 |
| A POD-Based Model for the Turbulent Wall Layer | p. 309 |
| HR SPIV for Dynamical System Construction | p. 317 |
| The Stagnation Point Structure of Wall-Turbulence and the Law of the Wall in Turbulent Channel Flow | p. 327 |
| Large Eddy Simulation | |
| Wall Modelling for Implicit Large Eddy Simulation of Favourable and Adverse Pressure Gradient Flows | p. 337 |
| LES of Turbulent Channel Flow with Pressure Gradient Corresponding to Turbomachinery Conditions | p. 347 |
| LES Modeling of Converging Diverging Turbulent Channel Flow | p. 355 |
| Large-Scale Organized Motion in Turbulent Pipe Flow | p. 365 |
| Skin Friction | |
| Near-Wall Measurements and Wall Shear Stress | p. 377 |
| Measurements of Near Wall Velocity and Wall Stress in a Wall-Bounded Turbulent Flow Using Digital Holographic Microscopic PIV and Shear Stress Sensitive Film | p. 385 |
| Friction Measurement in Zero and Adverse Pressure Gradient Boundary Layer Using Oil Droplet Interferometric Method | p. 393 |
| Modified Wall Flow | |
| Scaling of Turbulence Structures in Very-Rough-Wall Channel Flow | p. 405 |
| Characterizing a Boundary Layer Flow for Bubble Drag Reduction | p. 413 |
| Direct and Large Eddy Numerical Simulations of Turbulent Viscoelastic Drag Reduction | p. 421 |
| DNS of Supercritical Carbon Dioxide Turbulent Channel Flow | p. 429 |
| Industrial Modeling | |
| Evaluation of 2-f and ASBM Turbulence Models for Transonic Aerofoil RAE2822 | p. 439 |
| Turbulence Modelling Applied to Aerodynamic Design | p. 451 |
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