Titel: IUTAM Symposium on Asymptotic Methods for Turbulent Shear Flows at High Reynolds Numbers
Proceedings of the IUTAM Symposium held in Bochum, Germany, June 28-30 1995.
HC runder Rücken kaschiert.
Herausgegeben von K. Gersten
31. Juli 1996 - gebunden - 348 Seiten
This IUTAM Symposium was the first international conference on asymptotic methods for turbulent shear flows. It was the aim of this Symposium to bring together the experts and research workers to discuss recent work in this field. There was general consensus among the participants of the Symposium, that the asymptotic methods provide powerful tool for turbulence modelling, which ought to be used more intensively in practice in addition to the numerical meth ods. This was the Scientific Committee: K. Gersten (Germany, Chairman) A. Kluwick (Austria) J. - P. Guiraud (France) F. T. Smith (United Kingdom) V. V. Sychev (Russia) S. Kida (Japan) H. K. Moffat (United Kingdom) J. D. A. Walker (USA) We are very thankful that the Symposium was sponsored by the following organizations: . International Union of Theoretical and Applied Mechanics . Deutsche Forschungsgemeinschaft, Bonn . Gesellschaft der Freunde der Ruhr-Universitiit, Bochum . Institut fur Energie-, System-, Material- und Umwelttechnik e. V. , Bochum . Ruhrgas AG, Essen . Dresdner Bank, Bochum . Kluwer Academic Publishers, Dordrecht . Vieweg-Verlag, Wiesbaden We thank in particular the Rektor of the Ruhr University, Professor M. Bormann, who was host of the Symposium and made possible that the Symposium could take place on the campus. The following persons, who helped in organizing the Symposium and made sure that everything was working smoothly and efficiently during the Symposium, de serve our special thanks: Bernard Rocklage, Gerta Marliani, Petra Berkner and Th.
Introduction; K. Gersten. Session 1. Different Approaches to Asymptotic Expansions in Turbulent Boundary Layers; R. Narasimha. Turbulent Poiseuille Channel Flow Interpreted by Composite Expansions; R.L. Panton, et al. A High Reynolds Number Analysis of Turbulent Heat Transfer in the Entrance Region of a Pipe or Channel; H. Herwig, M. Voigt. Asymptotic Analysis of Turbulent Flow for a Rotating Cylinder; K.O. Lund. Session 2. Asymptotics for Turbulent Shear Flows: A Survey of Some French Contributions; E. Deriat. Application of the Defect Formulation to the Incompressible Turbulent Boundary Layer; O. Rouzaud, et al. Axisymmetric Turbulent Sink Flows; S. Haas, W. Schneider. Wake Layer in a Turbulent Boundary Layer With Pressure Gradient: A New Approach; N. Afzal. Session 3. Recent Advances in Wall-Bounded Shear Flows. Survey of Contributions from the USA; A.T. Degani. Asymptotic and Computational Results for a Turbulent Jet Impinging on a Nearby Wall; M. Champion, P.A. Libby. Asymptotic Analysis of Fully Turbulent Flows in Slender Convergent and Divergent Channels; B. Rocklage. Heat and Momentum Transfer in Turbulent Boundary Layers in the Presence of Strong Adverse Pressure Gradients; D. Vieth. Similarity of Turbulent Shear Flows: The Natural Convection Boundary Layer Next to Heated Vertical Surfaces; M. Wosnik, W.K. George. Section 4. Asymptotic Methods in Turbulent Combustion; N. Peters. Asymptotic Study of Turbulent Swirling Jets; V. Shtern. Longitudinal Vortex Embedded in Turbulent Couette Flow; V.I. Vasanta Ram. Section 5. Progress in Computation of Rapid Distortion of Turbulent Flows; M.J. Lee. Structure of a Confined Turbulent Wake under Shear and Irrotational Strain; I.D. Kalogirou, D.D. Papailiou. A Theoretical Model for Nonlinear Spots; B.T. Dodia, et al. Intermittency of Turbulence and the Scaling Hypothesis; G.A. Kuz'min. Analytical and Numerical Multiscale Calculations for Eddy Viscosity; A. Wirth, et al. Section 6. Asymptotic Stability of Turbulent Swirling Jets Fanning Out Along a Plate; V. Shtern, U. Dallmann. Lagrangian Direct-Interaction Approximation for Homogeneous Isotropic Turbulence; S. Kida. Generalised Multiple Expansion for the Jet Problem; N.Y. Yavorsky, M.A. Goldshtik. Back of the Envelope Analysis of Turbulence Models; D.C. Wilcox. Subject Index.