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Principles of Turbulence Control.
This book introduces the mathematical techniques for turbulence control in a form suitable for inclusion in an engineering degree program at both undergraduate and postgraduate levels whilst also making it useful to researchers and industrial users of the concepts. It uses a mix of theory, computati...
| Clasificación: | Libro Electrónico |
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| Autor principal: | |
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Wiley,
2016.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Title Page; Copyright; Table of Contents; About the Authors; Preface; Part One: Wall Turbulence; Chapter 1: Statistical Analysis and Spectral Method; 1.1 Statistical Analysis and Spectral Method; 1.2 Statistical Analysis of Turbulence; 1.3 Fourier Transform and Spectrum; 1.4 Spectral Series Expansion of Function; 1.5 Fundamentals of Spectral Methods; 1.6 Spectral Method of Navier-Stokes Equations; 1.7 Closed Remarks; References; Chapter 2: Wall Turbulence and Its Coherent Structure; 2.1 Boundary Layer Flow and Flow Stability; 2.2 Transition of Boundary Layer Flow.
- 2.3 Coherent Structure of Wall Turbulence2.4 Formation and Evolution of a Coherent Structure; 2.5 Bursting and Self-Sustaining of Wall Turbulence; 2.6 Closed Remarks; References; Part Two: Control of Wall Turbulence; Chapter 3: Control of Turbulence with Active Wall Motion; 3.1 Stokes Second Problem; 3.2 Experiments of Wall Turbulence with Spanwise Wall Oscillation; 3.3 Numerical Simulation of Wall Turbulence with Spanwise Wall Oscillation; 3.4 Deformed Wall; 3.5 Experiments of Wall Turbulence with Deformed Wall; 3.6 Numerical Simulation of Wall Turbulence with Deformed Wall.
- 3.7 Closed RemarksReferences; Chapter 4: Control of Turbulence by Lorentz Force; 4.1 Lorentz Force; 4.2 Experiments of Wall Turbulence with Spanwise Lorentz Force; 4.3 Numerical Simulation of Wall Turbulence with Spanwise Lorentz Force; 4.4 Wall Turbulence with Wall-Normal Lorentz Force; 4.5 Closed Remarks; References; Part Three: Optimal Flow Control; Chapter 5: Linear Optimal Flow Control; 5.1 Optimal Control; 5.2 Optimal Control of Linear Quadratic Systems; 5.3 Linear Process in Near-Wall Turbulent Flow; 5.4 Linear Optimal Control of Two-Dimensional Flow.
- 5.5 Linear Optimal Control of Three-Dimensional Flow5.6 Closed Remarks; References; Chapter 6: Nonlinear Optimal Flow Control; 6.1 Fundamentals of Optimal Flow Control; 6.2 Spectrum-based Suboptimal Control; 6.3 Adjoint-based Suboptimal Control; 6.4 Neural Network in Flow Control; 6.5 Closed Remarks; References; Index; End User License Agreement.