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Inhaltsverzeichnis
- I. Turbulence Sensitivity and Control in Wall Flows.
- II. Observations, Theoretical Ideas, and Modeling of Turbulent Flows -- Past, Present, and Future.
- III. Large Eddy Simulation: Its Role in Turbulence Research.
- IV. An Introduction and Overview of Various Theoretical Approaches to Turbulence.
- V. Decimated Amplitude Equations in Turbulence Dynamics.
- VI. Flat-Eddy Model for Coherent Structures in Boundary Layer Turbulence.
- VII. Progress and Prospects in Phenomenological Turbulence Models.
- VIII. Renormalisation Group Methods Applied to the Numerical Simulation of Fluid Turbulence.
- IX. Statistical Methods in Turbulence.
- X. The Structure of Homogeneous Turbulence.
- XI. Vortex Dynamics.
- XII. Two-Fluid Models of Turbulence.
- XIII. Chaos and Coherent Structures in Fluid Flaws.
- XIV. Connection Between Two Classical Approaches to Turbulence: The Conventional Theory and the Attractors.
- XV. Remarks on Prototypes of Turbulence, Structures in Turbulence and the Role of Chaos.
- XVI. Subgrid Scale Modeling and Statistical Theories in Three-Dimensional Turbulence.
- XVII. Strange Attractors, Coherent Structures and Statistical Approaches.
- XVIII. A Note on the Structure of Turbulent Shear Flows.
- XIX. Lagrangian Modelling for Turbulent Flows.