Synopses & Reviews
Synopsis
Plenary Lectures.- Lattice Boltzmann Methods for Viscous Fluid Flows and Two-Phase Fluid Flows.- Coping with Uncertainty in Turbulent Flow Simulations.- Adaptive Finite Element Discretization of Flow Problems for Goal-Oriented Model Reduction.- Keynote Lectures.- Progress in Computational Magneto-Fluid-Dynamics for Flow Control.- Aeroacoustics 1.- Computation of Noise Radiated from a Turbulent Flow over a Cavity with Discontinuous Galerkin Method.- Far-Field Noise Minimization Using an Adjoint Approach.- Stabilized High-Order Discontinuous Galerkin Methods for Aeroacoustic Investigations.- Aeroacoustics 2.- Direct Simulation for Acoustic Near Fields Using the Compressible Navier-Stokes Equation.- Aeroacoustic Simulation in Automobile Muffler by Using the Exact Compressible Navier-Stokes Equation.- Aeroacoustics/Elasticity.- Towards Understanding the Physics of Supersonic Jet Screech.- Calculation of Wing Flutter Using Euler Equations with Approximate Boundary Conditions.- Direct Computation of Infrasound Propagation in Inhomogeneous Atmosphere Using a Low-Dispersion and Low-Dissipation Algorithm.- Algorithm 1.- Symmetry Preserving Discretization of the Compressible Euler Equations.- A Numerical Diffusion Flux Based on the Diffusive Riemannproblem.- Algorithm 2.- Enhancement of the Computational Efficiency of UFP via a MWM.- A High-Order Accurate Implicit Operator Scheme for Solving Steady Incompressible Viscous Flows Using Artificial Compressibility Method.- Development of a Coupled and Unified Solution Method for Fluid-Structure Interactions.- Algorithm 3.- Development of AUSM-Type Solver for Analysis of Ideal Magnetohydrodynamic Flows.- An Implicit Parallel Fully Compressible Roe Based Solver for Subsonic and Supersonic Reacting Flows.- Bio-fluid Mechanics 1.- Rheology of Blood Flow in a Branched Arterial System with Three-Dimension Model.- The Effect of Curvature and Torsion on Steady Flow in a Loosely Coiled Pipe.- Bio-fluid Mechanics 2.- Analysis of the Unsteady Flow and Forces in an AAA Endovascular Stent.- Complex Flow 1.- Computation of Low Reynolds Number Aerodynamic Characteristics of a Flapping Wing in Free Flight.- Application of Window Embedment Grid Technique.- Improved Component Buildup Method for Fast Prediction of the Aerodynamic Performances of a Vertical Takeoff and Landing Micro Air Vehicle.- Complex Flow 2.- Numerical Investigation of the Tip Leakage Flow in a Multistage High Pressure Compressor.- Complex Flow 3.- Computational and Experimental Studies of Fluid Flow and Heat Transfer in a Calandria Based Reactor.- Complex Flows 4.- Propulsion by an Oscillating Thin Airfoil at Low Reynolds Number.- Residual Currents Around Plural Asymmetrical Structures in Oscillatory Flow Fields.- Compressible Flow 1.- Stability of the MUSCL Method on General Unstructured Grids for Applications to Compressible Fluid Flow.- Time-Accurate Computational Analysis of the Flame Trench.- Very High Order Residual Distribution Schemes for Steady Flow Problems.- Compressible Flow 2.- Shocks in Direct Numerical Simulation of the 3-D Spatially Developing Plane Mixing Layer.- Calculation of Aerodynamic Performance of Propellers at Low Reynolds Number Based on Reynolds-Averaged Navier-Stokes Equations Simulation.- Mathematical Modeling of Supersonic Turbulent Flows in a Channel of Variable Cross-Section with Mass Supply.- Efficient Numerical Simulation of Dense Gas Flows Past Airfoils and Wings.- A Dual-Time Implicit Upwind Scheme for Computing Three-Dimensional Unsteady Compressible Flows Using Unstructured Moving Grids.- Error Estimation and Control.- Problems Associated with Grid Convergence of Functionals.- Accuracy Analysis Based on a Posteriori Error Estimates of SemiGLS Stabilization of FEM for Solving Navier-Stokes Equations.- Residual Adaptive Computations of Complex Turbulent Flows.- Flow Control/Instability.- Active Control of Transitional Channel Flows with Pulsed and Synthetic Jets Using Vortex Methods.- Numerical Analysis
Synopsis
We are delighted to present this book which contains the Proceedings of the Fifth International Conference on Computational Fluid Dynamics (ICCFD5), held in Seoul, Korea from July 7 through 11, 2008. The ICCFD series has established itself as the leading international conference series for scientists, mathematicians, and engineers specialized in the computation of fluid flow. In ICCFD5, 5 Invited Lectures and 3 Keynote Lectures were delivered by renowned researchers in the areas of innovative modeling of flow physics, innovative algorithm development for flow simulation, optimization and control, and advanced multidisciplinary - plications. There were a total of 198 contributed abstracts submitted from 25 countries. The executive committee consisting of C. H. Bruneau (France), J. J. Chattot (USA), D. Kwak (USA), N. Satofuka (Japan), and myself, was responsible for selection of papers. Each of the members had a separate subcommittee to carry out the evaluation. As a result of this careful peer review process, 138 papers were accepted for oral presentation and 28 for poster presentation. Among them, 5 (3 oral and 2 poster presentation) papers were withdrawn and 10 (4 oral and 6 poster presentation) papers were not presented. The conference was attended by 201 delegates from 23 countries. The technical aspects of the conference were highly beneficial and informative, while the non-technical aspects were fully enjoyable and memorable. In this book, 3 invited lectures and 1 keynote lecture appear first. Then 99 c- tributed papers are grouped under 21 subject titles which are in alphabetical order.