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Modeling Complex Turbulent Flows
Overview of attention for book
Table of Contents
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Book Overview
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Chapter 1
Current and Future Needs in Turbulence Modeling
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Chapter 2
Army Turbulence Modeling Needs
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Chapter 3
The Best Turbulence Models for Engineers
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Chapter 4
The Modeling of Turbulent Flows with Significant Curvature or Rotation
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Chapter 5
A Perspective on Turbulence Modeling
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Chapter 6
Developments in Structure-Based Turbulence Modeling
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Chapter 7
The Low Dimensional Approach to Turbulence
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Chapter 8
Modeling Non-Equilibrium Turbulent Flows
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Chapter 9
Development of Algebraic Reynolds Stress Model for Non-Equilibrium Turbulence
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Chapter 10
Toward a Vortex Method Simulation of Non-Equilibrium Turbulent Flows
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Chapter 11
Two-Point Closures and Statistical Equilibrium
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Chapter 12
Modeling the Turbulent Wall Flows Subjected to Strong Pressure Variations
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Chapter 13
Some Structural Features of Pressure-Driven Three-Dimensional Turbulent Boundary Layers from Experiments
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Chapter 14
Physics and Computations of Flows with Adverse Pressure Gradients
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Chapter 15
Computations of Complex Turbulent Flows Using the Commercial Code Fluent
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Chapter 16
Simulation of Shock Wave-Turbulent Boundary Layer Interactions Using the Reynolds-Averaged Navier-Stokes Equations
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Chapter 17
Some Results Relevant to Statistical Closures for Compressible Turbulence
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Chapter 18
Transport Coefficients in Rotating Weakly Compressible Turbulence
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Chapter 19
Development of A Turbulence Model for Flows with Rotation and Curvature
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Chapter 20
Modeling and Analysis of Turbulent Flows in the Presence of Rotation and Curvature
Overall attention for this book and its chapters
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Book overview
1. Current and Future Needs in Turbulence Modeling
2. Army Turbulence Modeling Needs
3. The Best Turbulence Models for Engineers
4. The Modeling of Turbulent Flows with Significant Curvature or Rotation
5. A Perspective on Turbulence Modeling
6. Developments in Structure-Based Turbulence Modeling
7. The Low Dimensional Approach to Turbulence
8. Modeling Non-Equilibrium Turbulent Flows
9. Development of Algebraic Reynolds Stress Model for Non-Equilibrium Turbulence
10. Toward a Vortex Method Simulation of Non-Equilibrium Turbulent Flows
11. Two-Point Closures and Statistical Equilibrium
12. Modeling the Turbulent Wall Flows Subjected to Strong Pressure Variations
13. Some Structural Features of Pressure-Driven Three-Dimensional Turbulent Boundary Layers from Experiments
14. Physics and Computations of Flows with Adverse Pressure Gradients
15. Computations of Complex Turbulent Flows Using the Commercial Code Fluent
16. Simulation of Shock Wave-Turbulent Boundary Layer Interactions Using the Reynolds-Averaged Navier-Stokes Equations
17. Some Results Relevant to Statistical Closures for Compressible Turbulence
18. Transport Coefficients in Rotating Weakly Compressible Turbulence
19. Development of A Turbulence Model for Flows with Rotation and Curvature
20. Modeling and Analysis of Turbulent Flows in the Presence of Rotation and Curvature
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Stanford University
2
Engineering