IUTAM Symposium Transsonicum IV
Springer (Verlag)
978-94-010-3998-7 (ISBN)
1. Inviscid flow models: Steady flows.- New Results for the Normal Shock in Inviscid Flow at a Curved Surface.- Transonic Solutions for the Mach Reflection of Weak Shocks.- Interaction of a Shock Wave with the Sonic Line.- Transonic Wedge / Cone Flow Solutions Using Perturbed Potential and Euler.- Upstream Propagating Curved Shock in a Steady Transonic Flow.- Non-Uniqueness Problems in Transonic Flows.- Unsteady flows.- Unsteady Transonic Flow past “Non-unique” Airfoils.- Forced Oscillation of a Shock-Wave in a Transonic Channel Flow.- Nonlinear Aerodynamic Effects on Transonic LCO Amplitude of a Supercritical Airfoil.- On the Influence of Turbulence Modelling on Steady and Unsteady Flows.- Aeroelastics.- Aeroelastic Sensitivity in the Transonic Regime.- Numerical Investigation of Transonic Flutter and Modeling of Wind Tunnel Interference Effects.- Efficient Transonic Method for Aero-elastic Applications Including Aircraft/Stores.- A Unified Variational Formulation of Aero-elasticity Problem for Coupled ‘Fluid-Wing’ Vibration System in 3-D Unsteady Transonic Flow.- 2. Viscous flows: Viscous-inviscid interaction.- The Different Facets of an Old but Always Present Concern: Shock-Wave/Boundary Layer Interaction.- On the Effect of Area Ruling on Transonic abrupt Wing Stall.- Transonic, Laminar High Reynolds Number Flow in Slender Channels.- Viscous-Inviscid Interaction and Boundary-Layer Separation in Transonic Flows.- Boundary Layer Instabilities in Transonic Range of Velocities.- Perforated Plate Aerodynamics for Passive Shock Control.- Internal flows.- Internal Transonic Flows.- Transonic Flow past Plane Cascades: Experimental Data Analysis.- Numerical Simulation of Transonic Flow in Steam Turbine Cascades — the Role of Numerical Viscosity, Grid Type andApproximation of Boundary Conditions.- Reynolds-Stress Modelling for Transonic Shock-Wave/Boundary-Layer Interaction.- Experimental techniques.- ETW — A Facility for High Reynolds Number Testing.- Gurney Flaps in Transonic Flows.- Density Measurement of Large Scale Transonic Flow Fields.- Transonic Flow Phenomena of the Cold Spray Deposition Process.- 3. Numerical methods: CFD new analysis approaches.- Development of Computational Techniques for Transonic Flows: An Historical Perspective.- Transonic Aerodynamics Research Retro- and Prospective in Japan.- Implicit Euler Computations on Adaptive Meshes for Steady and Unsteady Transonic Flows.- Efficient and Refined Transonic Flow Analysis Using a New Flux Vector Splitting Scheme.- Numerical Solution of 2D and 3D Transonic Flows over an Airfoil and a Wing.- Hierarchical Formulations for Transonic Flow Simulations.- The Buffer Layer Technique Applied to Transonic Flow Calculations.- Design and Optimization tools.- Design Applications in the Industry.- How to Take into Account Deformation in a CAD-Based Euler Optimization Process.- Transonic Wing Shape Optimization Using a Genetic Algorithm.- Optimum Transonic Wing Design Using Control Theory.- Parallel Numerical Optimisation of Adaptive Transonic Airfoils.- Computation of Biobjective/Bidisciplinary Optimization.- 4. Flow control and adaptive configurations: Flow control.- A Review of Research at QinetiQ on the Control of Shock Waves.- Experimental Investigation of Transonic Aerofoil Shock / Boundary Layer Interaction Control Using Streamwise Slots.- Control of Transonic Periodic Flow on NACA0012 Aerofoil by Contour Bumps.- Transonic Flow Control Using a Navier-Stokes Solver and a Multi-Objective Genetic Algorithm.- Adaptive Configurations.- Adaptive Airfoil.-Parameterized Geometries for Configuration Adaptation.- 5. Supersonic flows: Supersonic Transport Design Aerodynamics.- Transonic Design of SST - To Employ Japanese SST as a Candidate for Near Sonic Transport.- Transonic Methods for Oblique Flying Wing SST.- Sonic Boom: Analysis and Optimization.- The Superboom as a Tricomi Problem: Extensions and Applications.- Numerical and Experimental Simulation of Sonic Boom Focusing.- Linear-Theory-Based Shape Optimization for Sonic Boom Minimization.- Sonic Boom Reduction Using an Adjoint Method for Supersonic Transport Aircraft Configurations.- 6. Real gas effects: Multiphase flow.- Development of a Numerical Method for Simulating Transonic Multiphase Flows.- Unsteady Nonadiabatic Transonic Two-Phase Flow.- Dissociation.- Sonic Line and Shock Detachment in Hypervelocity Cone Flow.- List of Participants.
Reihe/Serie | Fluid Mechanics and Its Applications ; 73 |
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Zusatzinfo | XV, 389 p. |
Verlagsort | Dordrecht |
Sprache | englisch |
Maße | 160 x 240 mm |
Themenwelt | Naturwissenschaften ► Physik / Astronomie ► Mechanik |
Technik ► Maschinenbau | |
ISBN-10 | 94-010-3998-4 / 9401039984 |
ISBN-13 | 978-94-010-3998-7 / 9789401039987 |
Zustand | Neuware |
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