Table Of ContentCONTENTS
Volume 39, Issue Nos. 1-12 (2002)
International Journal for
NUMERICAL METHODS IN FLUIDS
Issue No. 1, 10 May
Application of moving adaptive grids for numerical solution of 2D nonstationary
problems in gas dynamics: S. A. lvanenko and B. N. Azarenok
Numerical simulation of laminar flow and heat transfer over banks of siaggered
cylinders: D. G. Roychowdhury, S. K. Das and T. Sundararajan
Comparison of spectral and finite element methods applied to the study of the
core-annular flow in an undulating tube: C. Kouris, Y. Dimakopoulos, G. Georgiou
and J. Tsamopoulos
Surface triangulation for polygonal models based on CAD data: Y. Ito and
K. Nakahashi
BOOK REVIEW: Applied CFD techniques. An introduction based on finite element
methods, by Rainald Lohner: D. K. Gartling
Issue No. 2, 20 May
A multi-block lattice Boltzmann method for viscous fluid flows: D. Yu, R. Mei and
Multigrid convergence of inviscid fixed- and rotary-wing flows: C. B. Allen
Convergence acceleration by self-adjusted time stepsize using Bi-CGSTAB method
for turbulent separated flow computation: W. B. Tsai, W. W. Lin and C. C. Chieng
Refining the submesh strategy in the two-level finite element method: Application to the
advection—diffusion equation: L. P. Franca and F. N. Hwang
Issue No. 3, 30 May
Finite element analysis of vortex shedding using equal order interpolations: Y. J. Jan .
Simulating three-dimensional aeronautical flows on mixed _ block-structured/
semi-structured/unstructured meshes: J. A. Shaw and A. J. Peace
A numerical model for the flooding and drying of irregular domains: P. Brufau,
M. E. Vazquez-Cendon and P. Garcia-Navarro ..
Issue No. 4, 10 June
Comparison of c-space and p-space particle tracing schemes on high-performance
computers: accuracy and performance: F. Schafer and M. Breuer
Thin-tube vortex simulations for sinusoidal instability in a counter-rotating vortex pair:
A coupled lattice BGK model for the Boussinesq equations: Z. Guo, B. Shi and
C. Zheng
Simulations of high-aspect-ratio jets: A. E. Holdo and B. A. F. Simpson
Issue No. 5, 20 June
A comparison of time integration methods in an unsteady low-Reynolds-number flow:
P. Majander and T. Siikonen
On pressure boundary conditions for thermoconvective problems: H. Herrero and
A. M. Mancho
Numerical simulation of fluid flows using an unstructured finite volume method with
adaptive tri-tree grids: Z. Z. Hu, D. M. Greaves and G. X. Wu
Parallel computation of viscous incompressible flows using Godunov-projection
method on overlapping grids: H. Pan and M. Damodaran
Issue No. 6, 30 June
A numerical and experimental study of batch sedimentation and viscous resuspension:
R. Rao, L. Mondy, A. Sun and S. Altobelli
Numerical simulation for rotating internal weakly viscoelastic flows in rectangular ducts:
A. L. De Bortoli. M. Thompson and A. U. Zavaleta Calderon
Comparison of direct numerical simulations of turbulent flames using compressible or
low-Mach number formulations: J. de Charentenay, D. Thévenin and B. Zamuner . .
Design optimization of axial flow hydraulic turbine runner: Part I—an improved Q3D
inverse method: G. Peng, S. Cao, M. Ishizuka and S. Hayama
Design optimization of axial flow hydraulic turbine runner: Part |l—multi-objective
constrained optimization method: G. Peng, S. Cao, M. Ishizuka and S. Hayama
Issue No. 7, 10 July
High-order upwinding and the hydraulic jump: V. G. Ferreira, M. F. Tome,
N. Mangiavacchi, A. Castelo, J. A. Cuminato, A. O. Fortuna and S. McKee
Object-orientated parallel algorithms for computing three-dimensional isopycnal flow:
P. Concus, G. H. Golub and Y. Sun
Velocity field after wave breaking: Y. Watanabe and H. Saeki
A multi-dimensional monotonic finite element model for solving the convection—
diffusion-reaction equation: T. W. H. Sheu and H. Y. H. Chen
Issue No. 8, 20 July
Anisotropic mesh adaptation: towards user-independent, mesh-independent and solver-
independent CDF. Part Il. Structured grids: Djaffar Ajit-Ali-Yahia, Guido Baruzzi,
Wagdi G. Habashi, Michel Fortin, Julien Dompierre and Marie-Gabrielle Vallet .. . .
Anisotropic mesh adaptation: towards user-independent, mesh-independent and solver-
independent CDF. Part Ill. Unstructured meshes: Julien Dompierre, Marie-Gabrielle
Vallet, Yves Bourgault, Michel Fortin and Wagdi G. Habashi
An adaptive Cartesian grid generation method for “Dirty” geometry: Z. J. Wang and
K. Srinivasan
A low-dimensional spectral approach for transient free-surface flow inside thin cavities
of symmetric shape: S. X. Zhang and R. E. Khayat .
A differential equation for approximate wall distance: E. Fares and W. Schréder
Issue No. 9, 30 July
Embedded turbulence model in numerical methods for hyperbolic conservation laws:
D. Drikakis
The use of LES subgrid-scale models for shock capturing: N. A. Adams
VLES modelling of geophysical fluids with nonoscillatory forward-in-time schemes:
P. K. Smolarkiewicz and J. M. Prusa
A rationale for implicit turbulence modelling: L. G. Margolin and W. J. Rider
Large-scale organization of moist convection in idealized aquaplanet simulations:
W. W. Grabowski
Eddy resolving simulations of turbulent solar convection: J. R. Elliott and
P. K. Smolarkiewicz
Issue No. 10, 10 August
A finite element method for the two-dimensional extended Boussinesq equations:
M. A. Walkley and M. Berzins
Data assimilation of local model error forecasts in deterministic model: V. Babovic and
D. R. Fuhrman
Large eddy simulation of free surface turbulent flow in partly vegetated open channels:
S. Xiaohui and C. W. Li
A finite volume approach for unsteady viscoelastic fluid flows: H. Al Moatassime and
D. Esselaoui
AGE method simulations of a turbulent far-wake compared to spectral DNS:
D. K. Bisset
Issue No. 11, 20 August
Parallelization of a vorticity formulation for the analysis of incompressible viscous fluid
flows: M. J. Brown and M. S. Ingber
On the quadrilateral O.—P, element for the Stokes problem: D. Boffi and
L. Gastaldi
Towards entropy detection of anomalous mass and momentum exchange in
incompressible fluid flow: G. F. Naterer and D. Rinn
On streamline diffusion arising in Galerkin FEM with predictor/multi-corrector time
integration: Y. Eguchi
Exact solutions of the generalized Navier-Stokes equations for benchmarking:
A. Bourchtein
Issue No. 12, 30 August
Some recent finite volume schemes to compute Euler equations using real gas EOS
T. Gallouét, J.-M. Hérard and N. Seguin
On the validity of the perturbation approach for the flow inside weakly modulated
channels: H. Zhou, R. E. Khayat, R. J. Martinuzzi and A. G. Straatman
A novel finite point method for flow simulation: “4. Cheng and G. R. Liu
AUTHOR INDEX .
KEY WORD INDEX .
Aims and Scope
The advent of modern digital computers has enabled applied mathematicians, engineers, and scientists to make significant
s in the solution of previously intractable problems. Indeed, it is now possible to assess the validity of previously
to complex problems. This above trend is particularly valid in fluid mechanics, where there is an
1 to test previously advocated fundamental concepts and to develop new computer-based numerical techniques
)W apparent that new concepts can be tested via numerical methods. The main objective of the Journal Numerical
Fluids is to provide a timely and readily accessible reference for those engaged in computer aided design and
omputational fluid dynamics. The topics suitable for inclusion would range from potential flow, through viscous
ympressible and compressible) and even to those problems in which turbulence is the dominant feature. Methods fot
g ancillary equations, such as transport and diffusion, are also quite relevant.
expressed intention of the Journal is the dissemination of information relating to the development, refinement, and appli-
cation of computer-based numerical techniques for solving problems in fluids. These include, but are not limited to, the Finite
Difference and Finite Element methods, in each of which the manner of imposing boundary conditions to obtain a numerical
solution can be quite important. The submission of manuscripts in which the primary contribution is experimental is encour-
wed. if such results are compared with previously published numerical predictions. Also encouraged are papers in which an
stablished numerical technique is used to study some of the subtleties associated with the physics of fluids. Indeed, even papers
resenting closed form solutions directly related to engineering problems and demonstrated to be effective will also be published.
\lthough it is not practicable to publish complete computer codes, the salient features of a new code will be accepted as tech-
nical notes which should include examples illustrating the advantage of the techniques. It is envisaged that such codes should
be made available at the discretion of the authors. Contributions relating to aids in teaching and design will be processed in a
similar manner
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