Table Of ContentCONTENTS
Volume 38, Issue Nos. 1—12 (2002)
International Journal for
NUMERICAL METHODS IN FLUIDS
Issue No. 1, 10 January
ANNOUNCEMENT
A finite volume solver for 1D shallow-water equations applied to an actual river:
N. Goutal and F. Maurel
Local block refinement with a multigrid flow solver: C. F. Lange, M. Schafer and
F. Durst
Suppression of vortex shedding for flow around a circular cylinder using optimal
control: C. Homescu, |. M. Navon and Z. Li
A fully coupled numerical technique for 2D bed morphology calculations: J. V. Soulis .
Issue No. 2, 20 January
A 3D incompressible Navier-Stokes velocity—vorticity weak form finite element
algorithm: K. L. Wong and A. J. Baker
An implicit velocity decoupling procedure for the incompressible Navier-Stokes
equations: K. Kim, S.-J. Baek and H. J. Sung
High-resolution, monotone solution of the adjoint shallow-water equations:
B. F. Sanders and S. F. Bradford
A method for analysing nesting techniques for the linearized shallow water equations:
Y. Heggelund and J. Berntsen
A moving frame of reference algorithm for fluid/structure interaction of rotating and
translating bodies: L. Li, S. J. Sherwin and P. W. Bearman
Issue No. 3, 30 January
Transition from vortex to wall driven turbulence production in the Taylor—Couette
system with a rotating inner cylinder: W. M. J. Batten, N. W. Bressloff and
S. R. Turnock
On the influence of numerical schemes and subgrid-stress models on large eddy
simulation of turbulent flow past a square cylinder: A. Nakayama and S. N.
Vengadesan
An analysis and comparison of the time accuracy of fractional-step methods for the
Navier-Stokes equations on staggered grids: S. Armfield and R. Street
Finite element study of free surface turbulent flow in rotating channels: K. V.
Pagalthivarthi and V. Ramanathan
Issue No. 4, 10 February
Consistency with continuity in conservative advection schemes for free-surface
models: E. S. Gross, L.B onaventura and G. Rosatti
Numerical errors of the volume-of-fluid interface tracking algorithm: G. Cerne,
S. Petelin and |. Tiselj
The direct simulation Monte Carlo method using unstructured adaptive mesh and its
application: J.-S. Wu, K.-C. Tseng and C.-H. Kuo
Computational study on turbulent flows around modern tanker hull forms: W.-J. Kim,
D.-H. Kim and S.-H. Van .
Issue No. 5, 20 February
Gas-assisted fluid displacement in a circular tube and a rectangular channel:
F. Kamisli and M. E. Ryan
Efficient computation of natural convection in a concentric annulus between an outer
square cylinder and an inner circular cylinder: C. Shu and Y. D. Zhu
identification of regions of fastest mixing in a system of point vortices:
P. Ramachandran and S. C. Rajan
Stability of explicit advection schemes. The balance point location rule: B. P. Leonard
Issue No. 6, 28 February
A reappraisal of Taylor—Galerkin algorithm for drying—wetting areas in shallow water
computations: M. Quecedo and M. Pastor
Numerical solution of the flow of thin viscous sheets under gravity and the inverse
windscreen sagging problem: R. Hunt
Three dimensional tide-induced circulation model on a triangular mesh: W. Jiang and
An unconditionally stable, explicit Godunov scheme for systems of conservation laws:
V. Guinot .
A simple and efficient error analysis for multi-step solution of the Navier-Stokes
equations: R. M. Fithen
Issue No. 7, 10 March
Application of local grid refinement to vortex motion due to solitary wave passing
over a submerged body: C.-J. Tang and J.-H. Chang
Improved linear interpolation practice for finite-volume schemes on complex grids:
T. Lehnhauser and M. Schafer
Iterative explicit simulation of 1D surges and dam-break flows: C.-T. Hsu and
Simulation of pressure-tooling wire-coating flow with Phan-Tien/Tanner models:
V. Ngamaramvaranggul and M. F. Webster
Issue No. 8, 20 March
A three-dimensional boundary layer scheme: stability and accuracy analyses:
J. Horri-Naceur and D. Buisine
Selection of a staggered grid for inertia-gravity waves in shallow water: J. M. Beckers
Finite volume scheme for the solution of fluid flow problems on unstructed non-stag-
gered grids: |. E. Barton, D. Markham-Smith and N. Bressloff
Numerical solutions of the shallow water equations with discontinuous bed
topography: J. G. Zhou, D. M. Causon, D. M. Ingram and C. G. Mingham
Numerical solution of incompressible flows by discrete singular convolution:
D. C. Wan,Y . C. Zhou and G. W. Wei
Issue No. 9, 30 March
A low-dimensional spectral approach for the non-linear overstability of purely
elastic fluids: R. E. Khayat
Parallel solution of a coupled flow and transport model for shallow water:
B. P. Sommeijer and P. J. van der Houwen
A low-dimensional spectral approach for transient axisymmetric free-surface flow
inside thin cavities of arbitrary shape: R. E. Khayat and A. Simanowski
On the use of the Galerkin method for 3D numerical modelling of the general
circulation: the South Atlantic experiment: J. Harari and E. Giarolla
The effect of solutal undercooling on double-diffusive convection and macrosegration
during binary alloy solidification: A numerical investigation: S. Chakraborty and
P. Dutta
Issue No. 10, 10 April
Numerical simulation of flow in a circular duct fitted with air-jet vortex generators:
C. Kupper and F. S. Henry
Asymmetric flows in planar symmetric channels with large expansion ratio: S. Mishra
and K. Jayaraman
A stabilized finite element method for the Saint-Venant equations with application to
irrigation: G. Hauke
A high resolution upwind scheme for multi-component flows: D. Igra and K. Takayama
Issue No. 11, 20 April
A domain decomposition method for modeling Stokes flow in porous materials:
G. Liu and K. E. Thompson
A simplified quasi-two-dimensional model for gain optimization in carbon dioxide
gasdynamic lasers (GDL): A. R. Bahrampour, R.-M. Farrahi and M. Radjabalipour
A o-coordinate three-dimensional numerical model for surface wave propagation:
P. Lin and C. W. Li
Analysis of hybrid algorithms for the Navier-Stokes equations with respect to
hydrodynamic stability theory: G. Passoni, G. Alfonsi and M. Galbiati
Transition and heat transfer predictions in a turbine cascade at various free-stream
turbulence intensities through a one-equation turbulence model: G. |. Tsourakis,
D. G. Koubogiannis and K. C. Giannakoglou
Issue No. 12, 30 April
A class of higher order compact schemes for the unsteady two-dimensional
convection—diffusion equation with variable convection coefficients: J. C. Kalita,
D. C. Dalal and A. K. Dass
2-D transmitral flows simulation by means of the immersed boundary method on
unstructured grids: F. M. Denaro and F. Sarghini
A numerical study of an unsteady laminar flow in a doubly constricted 3D vessel:
B. V. Rathish Kumar, T. Yamaguchi, H. Liu and R. Himeno
Deal with pressure: FEM solution strategies for the pressure in the time-dependent
Navier-Stokes equations: M. A. Christon . .
AUTHOR INDEX
KEY WORD INDEX
Aims and Scope
The advent o f modern digital computers has enabled applied mathematicians, engineers, and scientists to make significant
prog ress in the solution of previously intractable problems. Indeed, it is now possible to assess the validity of previously
en concepts related to complex problems. This above trend is particularly valid in fluid mechanics, where there is an
need to test previously advocated fundamental concepts and to develop new computer-based numerical techniques.
now 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
in computational fluid dynamics. The topics suitable for inclusion would range from potential flow, through viscous
(incompressible and compressible) and even to those problems in which turbulence is the dominant feature. Methods for
ving ancillary equations, such as transport and diffusion, are also quite relevant
Thhee e x pre" sse 1 intention of the Journal is the dissemination of information relating to the development, refinement, and appli-
cation oO f 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-
aged, if such} results are compared with previously published numerical predictions. Also encouraged are papers in which an
established numerical technique is used to study some of the subtleties associated with the physics of fluids. Indeed, even papers
presenting closed form solutions directly related to engineering problems and demonstrated to be effective will also be published.
Although it is not practicable to publish complete computer codes, the salient features of a new code will be accepted as tech-
nical notes which shou!d 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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