Seventh International Conference on Numerical Methods in Fluid Dynamics

Inhaltsverzeichnis

• Trends and pacing items in computational aerodynamics.
• Polygon transformations in fluid mechanics.
• On the computation of discontinuous multi-dimensional gas flows.
• Pseudo-unsteady methods for transonic flow computations.
• Axisymmetric transonic flow computations using a multigrid method.
• Numerical techniques for free surface motion with application to drop motion caused by variable surface tension.
• Viscous flow between concentric rotating spheres.
• Numerical solutions for a moving shear layer in a swirling axisymmetric flow.
• Flow induced by a jet in a cavity measurements and 3D numerical simulation.
• Simulation of complex shock reflections from wedges in inert and reactive gaseous mixtures.
• Computation of three-dimensional horseshoe vortex flow using the Navier-Stokes equations.
• Numerical analysis of stability in magnetohydrodynamical problems.
• Compressible flow simulation using Hamilton's equations and Clebsch-type vortex parameters.
• Finite element calculation of steady transonic flow in nozzles using primary variables.
• Improved surface velocity method for transonic finite-volume solutions.
• Numerical simulation of reactive flow in internal combustion engines.
• Mixing layer simulation by an improved three-dimensional vortex-in-cell algorithm.
• On the numerical solution of a capillary free boundary problem governed by the Navies-Stokes equations.
• Transonic flow calculations with higher order finite elements.
• A finite-volume method for the prediction of turbulent flow in arbitrary geometries.
• A finite difference method for the slow motion of a sphere in a rotating fluid.
• Multifluid incompressible flows by a finite element method.
• Numerical calculation of transonic axial turbomachinery flows.
• A study of reactive diffusion problems with stiff integrators and adaptive grids.
• Coordinate generation with precise controls.
• An alternating direction implicit finite element method for compressible, viscous flow.
• Finite difference computation of the capillary jet, free surface problem.
• Simultaneous solutions of inviscid flow and boundary layer at transonic speeds.
• Numerical studies on nonlinear hydrodynamic stability by computer-extended perturbation series.
• Compact differencing schemes for advective problems.
• Study of two-dimensional flow past an elliptic cylinder by discrete-vortex approximation.
• Two analytical solutions for the reflection of unsteady shock wave and relevant numerical tests.
• Separated boundary layer flows with high Reynolds numbers.
• Improvement of numerical schemes by incorporation of approximate solutions applied to rotating compressible flows.
• An alternative approach to the numerical simulation of steady inviscid flow.
• Reformulation of the method of characteristics for multidimensional flows.
• A conjugate gradient iterative method.
• A numerical method for the wave resistance of a moving pressure distribution on the free surface.
• Numerical methods for solving some fluid mechanics problems met in a strongly rotating gas centrifuge.
• Transonic flow computations using grid systems with block structure.
• On the convergence of iterative methods for solving the steady-state Navier-Stokes equations by finite differences.
• Direct numerical simulations of turbulent shear flows.
• Numerical solution of the Navier-Stokes equations by means of a multigrid method and Newton-iteration.
• Analytic structure of high Reynolds number flows.
• Incompressible mixed finite elements for the Stokes' equation in IR3.
• A fractional volume of fluid method for free boundary dynamics.
• Numerical analysis of dynamic stall phenomena of an oscillating airfoil by the discrete-vortex approximation.
• Implicit non-iterative scheme for turbulent unsteady boundary layers.
• A physical approach to solve numerically complicated hyperbolic flow problems.
• Transition and turbulence in planar channel flows.
• Some mathematical problems of air basin preservation.
• A projection method based on Gaussian quadratures with application to compressible Navier-Stokes equations.
• Semidirect solution to steady transonic flow by Newton's method.
• The use of the Riemann problem in finite difference schemes.
• Stability and separation of freely interacting boundary layers.
• An algorithm for unsteady transonic potential flow past airfoils.
• Numerical analysis of the asymptotic flow behavior about the edge of a rotating disk.
• Analysis of conservative properties of the difference schemes by the method of differential approximation.
• A generalized hybrid random choice method with application to internal combustion engines.
• Computational models for convective motions induced at fluid interfaces.
• Free molecular flows past a concave body.
• Successes and surprises with computer-extended series.
• A fast method to solve incompressible boundary-layer interaction problems.
• Viscous transonic flow over airfoils.
• Numerical methods for the solution of the simplified Navier-Stokes equations.
• Recent advances in the development of implicit schemes for the equations of fluid dynamics.
• High resolution difference schemes for compressible gas dynamics.
• Soms- a second order monotone scheme for-shock capturing and its application to the solutions of compressible Navier-Stokes equations.
• Economical methods for solving the problems of gas dynamics.
• Numerical simulation of the rarefied gas flows.
• Mixed spectral/finite difference approximations for slightly viscous flows.
• An accurate method for calculating the interactions between discontinuities in three dimensional flow.