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International Journal for Numerical Methods in Fluids 2006: Vol 51 Index PDF

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Preview International Journal for Numerical Methods in Fluids 2006: Vol 51 Index

INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN FLUIDS Int. J. Numer. Meth. Fluids 2006; 51:1439-1440 AUTHOR INDEX Aavatsmark, I., 939 Garcia-Navarro, P., 585 Medina, A., 963 Abu-Ramadan, E., 117 Geng, P., 511 Mokhtarzadeh-Dehghan, M. R.., Akella, S., 719 Geuzaine, P., 1157 49 Alcolea, A., 963 Ghidoni, A., 1097 Morita, K., 31 Alemi, H., 1379 Gill, P. M., 617 Murillo, J., 585 Aoki, T., 1335 Giordano, M., 1117 Guarracino, L., 1205 Badcock, K., 819 Nakayama, K., 197 Balasubramanyam, S., 159 Navon, I. M., 719 Barakos, G., 819 Hanel, D., 351 Neofytou, P., 489 Barthélemy, E., 1217 Hartmann, R., 1131 Niewiadomski, C., 849 Bathe, K.-J., 673 Hassan, O., 937 Nikitin, N., 221 Bonneton, P., 1217 Heemink, A. W., 331 Nixon, J. B., 617 Bozkaya, C., 567 Hillewaert, K., 1157 Novotny, J., 1001 Hitomi, D., 791 Braack, M., 981 Huang, Y.-N., 285 Brandt, T., 635 Hysing, S., 659 Pal, M., 1177 Bunya, S., 1277 Paraschivoiu, M., 849 Burda, P., 1001 Pelizzari, E., 1097 Burguete, J., 585 lacovides, H., 1379 Piradeepan, N., 49 Price, W. G., 305 Cac. ©. A... 1355 Carrera, J., 963 Jamali, M., 371 Celik, B., 1041 a C.. 913 Quintana, F., 1205 Chan, M. K.-H., 385 ha; Y., 1295 Chen, C.-H., 881 JianHua, T., 469 Chen, C.-Y., 881 Raghurama Rao, S. V., 159 Chen, Y. G., 305 Kaiser, R., 351 Raisee, M., 1379 Chevaugeon, N., 1157 Kalita, J. C., 703 Rebay, S., 1097 Chhabra, P., 703 Kandhai, D., 439 Remacle, J.-F., 1157 Choi, S.-U., 1319 Kang, H., 1319 Richter, Th., 981 Chu, H.-J., 285 Kato, K., 1335 Rohde, M., 439 Cienfuegos, R., 1217 Khayat, R. E., 117 Kohno, H., 673 Saito, T., 791 Kubota, S., 1335 Saliba, R., 1205 Decenciére, E., 1355 Kuznetsov, A. V., 511 Sarkar, S., 1 Derksen, J. J., 439 Selmin, V., 1097 Dong, Y., 1407 Lamb, A. R., 1177 Senthilkumar, S., 235 rm. T.. 77 Lantermann, U., 351 Shao, S., 913 Dunne, Th., 1017 Lee, J. W.,. 617 Shirakawa, N., 31 Lin, H. X., 331 Shu, C.-Y., 897 Edis, F. O., 1041 Lin, M.-H., 425 Sistek, J., 1001 Edwards, M. G., 1059, 1079, Liu, Y., 1407 Smaili, A., 749 1177 Sobey, R. J., 773 Eigestad, G. T., 939 Ma, H.-Y., 285 Staniforth, A., 1297 Magi, V., 1117 Steijl, R., 819 Fukuda, K., 31 Masson, C., 749 Stijnen, J. W., 331 1440 AUTHOR INDEX Sugiyama, H., 791 Usha, R., 235 Wood, N., 1297 Sullivan, P., 849 Wu, Y. L., 897 van den Akker, H. E. A., 439 Wu, Z.-N., 77 Venkatraman, K., | Tao, S., 469 Yan, G., 1407 Teubner, M. D., 617 Wan, D., 531 Tezer-Sezgin, M., 567 Wang, B., 77 Yoshida, M., 1335 Tran, L. D., 749 Wang, S. S. Y., 1255 Yoshimura, S., 1277 Tsangaris, S., 489 Webster, R., 1419 Tucker, P. G., 261 Westerink, J. J., 1277 Zerroukat, M., 1297 Tulapurkara, E. G., 235 Wlokas, I., 351 Zhang, S., 31 Turek, S., 531 Wong, J. C.-F., 385 Zhang, Y., 1255 INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN FLUIDS Int. J. Numer. Meth. Fluids 2006; 51:1441—1443 KEY WORD INDEX 2-D, 703 Broken dam, 305 Discontinuous Galerkin, 937, 2-D LES, 913 Budget analysis, 1319 1157 Burgers equation, 719 Discontinuous Galerkin 3-D compressible fluid equa- methods, 1131 tions, 1335 Cartesian mesh, 897 Discrete kinetic system, 159 CFD, 489, 1355 Discrete vortex method, | a posteriori error estimation, Characteristic-based-split Displacement distribution 937 (CBS) algorithm, 937, 1041 functions, 1407 a posteriori error estimator, Chimera method, 511 Double lid-driven cavity, 385 1017 CIP, 197 DQM, 567 a priori testing, 635 CIP-CSL2, 197 Dual reciprocity BEM, 567 Abdominal aortic aneurysm, Compact difference scheme, 489 197 Eccentric annuli, 897 Accuracy, 673, 703 Compact schemes, 1217 Elasticity effects, 117 Adaptive refinement, 897 Compressible, 937, 981 Euler equations, 937, 1157 Adjoint model, 719 Compressible flows, 1407, Eulerian model for fluid—struc- Advection, 1297 1041 ture interaction, 1017 Aerospace, 261 Compressible Navier—Stokes Explicit filtering, 635 Airfoil, 49 equations, 1131 Extreme waves, 773 Algebraic multigrid, 1419 Conservation, 1297 Algebraic Reynolds stress Conservation laws, 1277 FEM, 531, 1001 model, 791 Conservative methods, 585 Fictitious boundary method, Anisotropic mesh, 937, 1097 Consistent splitting method, 531 Anisotropy, 939 385 Fingering instabilities, 881 Articulated rotor blades, 819 Constitutive models, 937, Finite difference, 371 Artificial compressibility 1205 Finite elements, 659, 937, 981, method, 305, 617 Control-volume discretization, 1117, 1205 Auto-evaluation 937, 939 Finite element methods, 1277, mechanism, 1255 Convection—diffusion, 703 1131 Axisymmetric, 351 Convective heat transfer, 31 Finite-volume, 937, 1059, Convergence, 937, 939, 1177 1079 Background grid, 1097 Convergence to steady state, Finite volume methods, 719, Bioconvection, 511 77 1217 Blast wave, 1335 Coriolis force, 881 Flow in porous media, 937, Blood constitutive equations, Cubic k—e models, 285 1205 489 Curvature, 49 Flow-condition-based inter- Boundary conditions, 585, Curved ducts, 1379 polation, 673 1277 CVFEM, 749 Fluid—structured interaction, Boundary element method, 937 371 Data assimilation, 719 Flux-continuous, 937, 1059, Boundary integral method, 773 DES, 261 1079, 1177 Boundary layer, 371 DFD method, 897 Forward-flight, 819 Boundary-fitted coordinate Diagonal form, 159 Free surface flows, 305 system, 791 Discontinuous coefficients, Friction, 1355 Boussinesq-type equations, 937, 1377 Full-tensor, 937, 1059, 1079 1217 Discontinuous flow, 585 Fully coupled solutions, 1419 1442 KEY WORD INDEX Geometric effects, 117 Longitudinal vortices, 425 Particulate flows, 531 GLS, 937, 1001 Low Mach number, 351 Particulate suspension flow, Goal-oriented mesh adapta- 235 tion, 937, 1017 Magnetic effect, 425 Peristaltic motion, 235 Grid-free schemes, 159 Mass conservation, 585 Physical interpolation, 1419 Groundwater, 937, 963 Mean spin tensor, 285 Plunging wave, 913 Meandering open channel, 791 Pollutant transport, 469 Haemodynamics, 489 Mesh deformation, 819 Potential flow, 773 High resolution schemes, 719 Mesh generation, 937, 1255 PPM, 1297 High Reynolds number flows, MHD flow equations, 567 673 Microflow, 937, 1041 Quadrature and pressure equa- Higher-order, 331, 937, 1059, Mild-slope beach, 469 tion, 937, 1177 1079 Miscible fluids, 881 Quadrature free, 937, 1157 HOC, 703 Mixed finite element, 385 Quasi bubble-function Hover, 819 Monotonicity, 1297 element, 1277 Hydrodynamic lubrication, Motile microorganisms, 511 1355 Moving boundary, 511 Rarefied flow, 937, 1041 Hydrodynamic pressure, 617 Moving-particle semi-implicit Rational function CIP method, ILES, 261 (MPS) method, 31 1335 Implicit surface tension, 659 Multigrid, 531, 937, 1157 Rayleigh—Benard convection, Multiphase flow, 659 31 Incompressible, 937 Reactive flows, 937, 981 Incompressible flows, 673, Relaxation system, 159 897, 1001, 1355 Natural convection, 897 Remapping, 1297 Incompressible Navier-Stokes Navier—Stokes, 1419 Reynolds stress model, 1319 equations, 531 Navier-Stokes equations, Rotating Hele—Shaw cell, 881 Incompressible/viscous flow, 221, 385, 849, 937, 1355 Rotation, 425 385 Near-shore current, 469 Rotation effects, 285 Inhomogeneity, 937, 939 Newton—Krylov, 937 Rotorcraft CFD, 819 Initial position method, 937, Newton—Krylov method, 1157 1017 N-S equations, 703 Inner secondary currents, 1319 Numerical, 49 Second-order upwind scheme, 749 Internal solitary wave, 197 Numerical analysis, 791 Interpolated differential op- Numerical code, 773 Secondary currents, 1319 erator scheme, 1335 Numerical error, 635 Self-adjustment mechanism, 1255 Inviscid compressible flows, Numerical method, 331 159 Numerical model, 469 Semi-GLS, 937, 1001 Semi-implicit Runge—Kutta Numerical modelling, 937, k—e model, 77 method, 221 963 k—e turbulence model, 617 Serre equations, 1217 Numerical phase-averaging, Shallow water, 585 913 Lagrangian lattice Boltzmann Shallow water equations, method, 1407 1277 Laplacian model, 31 Oldroyd-B model, 117 Ship waves, 305 Large particle, 511 Open-channel flows, 617, Shock-capturing, 937, 1131 Lattice-BGK method, 351 1319 Shock wave, 1335 Lattice-Boltzmann method, Oscillating airfoil, | Shooting technique, 235 439 Slip-velocity, 1041 Least squares upwinding, 159 Parabolic equation, 937, 963 Sloshing, 305 LES, 635 Parallel processing, 937 Smoothness control, 1255 Level set method, 305, 659, Parameter estimation, 937, 963 Source terms, 585 937, 1017 Particle scale (PS), 913 Spatially modulated channels, Local grid refinement, 439 Particle transport model, 331 117 KEY WORD INDEX 1443 Spectral element method, 849 Temperature-jump, 937, 1041 Unstructured meshes, 937 SPH, 913 Third-order accuracy, 221 URANS, 261 Stability, 673 Time splitting method, 77 Variable density, 351 Stabilization, 937, 981, 1001 Turbulence, 371, 439, 1319 Variably saturated flow, 937, Standing wave, 371 Turbulence modelling, 1379 1205 Stenosis, 489 Turbulent, 49 Viscoelastic fluid, 117 Stratification, 331 Turbulent flow, 791, 1379 Vortex formation, 117 Stratified field, 197 Turbulent swirling flows, 285 Vortex instability, 425 Streamfunction-vorticity Two-fluid model, 937, formulation, 511 1117 Wake, 49 Sub-particle scale (SPS), 913 Wall distance, 261 Subgrid, 511 Unsteady, 703 Wall shear stress, 849 SUPG, 937, 1117 Unsteady aerodynamics, | Water waves, 469 Surface meshing, 937, 1097 Unsteady flow, 773 Wave kinematics, 773 Surface wave, 371 Unstructured, 1059, 1079 Wavy-walled channel, 235 CONTENTS Volume 51, Issue Nos. 1-12 (2006) International Journal for NUMERICAL METHODS IN FLUIDS Issue No. 1, 10 May Numerical simulation of incompressible viscous flow past a heaving airfoil: S. Sarkar and K. Venkatraman An improved MPS method for numerical simulations of convective heat transfer problems: S. Zhang, K. Morita, K. Fukuda and N. Shirakawa Numerical prediction of a turbulent curved wake and comparison with experimental data: M. R. Mokhtarzadeh-Dehghan and N. Piradeepan On steady state computation of turbulent flows using kK—-c models approximated by the time splitting method: T. Du, Z.-N. Wu and B. Wang Issue No. 2, 20 May On the interplay between inertial and viscoelastic effects for the flow in weakly modulated channels: E. Abu-Ramadan and R. E. Khayat A grid-free upwind relaxation scheme for inviscid compressible flows: S. Balasubramanyam and S. V. Raghurama Rao Comparisons of CIP, compact and CIP-CSL2 schemes for reproducing internal solitary waves: K. Nakayama Third-order-accurate semi-implicit Runge-Kutta scheme for incompressible Navier-Stokes equations: N. Nikitin Issue No. 3, 30 May Numerical study of particulate suspension flow through wavy-walled channels: R. Usha, S. Senthilkumar and E. G. Tulapurkara 235 Turbulence modelling of problem aerospace flows: P. G. Tucker 261 Modelling turbulent swirling flows based on the algebraic two-equation (K—«) approach: Y.-N. Huang, H.-Y. Ma and H.-J. Chu 285 A simulation of free surface waves for incompressible two-phase flows using a curvilinear level set formulation: W. G. Price and Y. G. Chen 305 An efficient 3D particle transport model for use in stratified flow: J. W. Stijnen, A. W. Heemink and H. X. Lin 331 Issue No. 4, 10 June Generalized lattice-BGK concept for thermal and chemically reacting flows at low Mach numbers: D. Hanel, U. Lantermann, R. Kaiser and |. Wlokas A coupled boundary element-finite difference model of surface wave motion over a wall turbulent flow: M. Jamali iv A consistent splitting scheme for unsteady incompressible viscous flows |. Dirichlet boundary condition and applications: J. C.-F. Wong and M. K.-H. Chan Magnetic effect on the formation of longitudinal vortices in a rotating laminar boundary layer: M.-H. Lin A generic, mass conservative local grid refinement technique for lattice-Boltzmann schemes: M. Rohde, D. Kandhai, J. J. Derksen and H. E. A. van den Akker Issue No. 5, 20 June Numerical simulation of pollutant transport acted by wave for a shallow water sea bay: S. Tao and T. JianHua Flow effects of blood constitutive equations in 3D models of vascular anomalies: P. Neofytou and S. Tsangaris Direct numerical simulation of settling of a large solid particle during bioconvection: P. Geng and A. V. Kuznetsov Direct numerical simulation of particulate flow via multigrid FEM techniques and the fictitious boundary method: D. Wan and S. Turek Boundary element solution of unsteady magnetohydrodynamic duct flow with differential quadrature time integration scheme: C. Bozkaya and M. Tezer-Sezgin .. Issue No. 6, 30 June Numerical boundary conditions for globally mass conservative methods to solve the shallow-water equations and applied to river flow: J. Burguete, P. Garcia-Navarro and J. Murillo Applications of the artificial compressibility method for turbulent open channel fiows: J. W. Lee, M. D. Teubner, J. B. Nixon and P. M. Gill A priori tests on numerical errors in large eddy simulation using finite differences and explicit filtering: T. Brandt A new implicit surface tension implementation for interfacial flows: S. Hysing A flow-condition-based interpolation finite element procedure for triangular grids: H. Kohno and K.-J. Bathe Retraction and replacement notice Issue No. 7, 10 July An improved (9,5) higher order compact scheme for the transient two-dimensional convection—diffusion equation: J. C. Kalita and P. Chhabra A comparative study of the performance of high resolution advection schemes in the context of data assimilation: S. Akella and |. M. Navon A stable second-order mass-weighted upwind scheme for unstructured meshes: L. D. Tran, C. Masson and A. Smaili Wave kinematic fields from the boundary integral method: R. J. Sobey Numerical analysis of turbulent structure in compound meandering open channel by algebraic Reynolds stress model: H. Sugiyama, D. Hitomi and T. Saito Issue No. 8, 20 July A framework for CFD analysis of helicopter rotors in hover and forward flight: R. Steijl, G. Barakos and K. Badcock A numerical study of fully developed laminar fiows in pipes with two planar curvatures: C. Niewiadomski, M. Paraschivoiu and P. Sullivan Numerical simulations of interfacial instabilities on a rotating miscible droplet in a time- dependent gap Hele—Shaw cell with significant Coriolis effects: C.-H. Chen and Adaptive mesh refinement-enhanced local DFD method and its application to solve Navier—Stokes equations: C. Shu and Y. L. Wu SPH computation of plunging waves using a 2-D sub-particle scale (SPS) turbulence model: S. Shao and C. Ji Issue Nos. 9-10, 30 July—10 August Special Issue: Finite Element for Flow Problems (FEF) 2005: Part 1 Editorial: O. Hassan Numerical convergence of the MPFA O-method and U-method for general quadrilateral grids: |. Aavatsmark and G. T. Eigestad Inversion of heterogeneous parabolic-type equations using the pilot points method: A. Alcolea, J. Carrera and A. Medina Stabilized finite elements for 3D reactive flows: M. Braack and Th. Richter On a modification of GLS stabilized FEM for solving incompressible viscous flows: P. Burda, J. Novotny and J. Sistek An Eulerian approach to fluid—structure interaction and goal-oriented mesh adaptation: Th. Dunne Analysis of fluid flow through micro-fluidic devices using characteristic-based-split procedure: B. Celik and F. O. Edis Higher-resolution hyperbolic-coupled-elliptic flux-continuous CVD schemes on structured and unstructured grids in 2-D: M. G. Edwards Higher-resolution hyperbolic-coupled-elliptic flux-continuous CVD schemes on structured and unstructured grids in 3-D: M. G. Edwards 3D anisotropic unstructured grid generation: A. Ghidoni, E. Pelizzari, S. Rebay and V. Selmin Petrov—Galerkin finite element stabilization for two-phase flows: M. Giordano and Adaptive discontinuous Galerkin methods with shock-capturing for the compressible Navier-Stokes equations: R. Hartmann Hierarchic multigrid iteration strategy for the discontinuous Galerkin solution of the steady Euler equations: K. Hillewaert, N. Chevaugeon, P. Geuzaine and J.-F. Remacle Convergence study of a family of flux-continuous, finite-volume schemes for the general tensor pressure equation: M. Pal, M. G. Edwards and A. R. Lamb A numerical approach for groundwater flow in unsaturated porous media: F. Quintana, L. Guarracino and R. Saliba Issue No. 11, 20 August A fourth-order compact finite volume scheme for fully nonlinear and weakly dispersive Boussinesq-type equations. Part |: Model development and analysis: R. Cienfuegos, E. Barthélemy and P. Bonneton Structured mesh generation with smoothness controls: Y. Zhang, Y. Jia and S. S.Y ¥.W ang Improvements in mass conservation using alternative boundary implementations for a quasi-bubble finite element shallow water model: S. Bunya, S. Yoshimura and J. J. Westerink The Parabolic Spline Method (PSM) for conservative transport problems: M. Zerroukat, N. Wood and A. Staniforth Reynolds stress modelling of rectangular open-channel flow: H. Kang and S.-U. Choi Issue No. 12, 30 August A numerical scheme for strong blast wave driven by explosion: K. Kato, T. Aoki, S. Kubota and M. Yoshida Numerical analysis of a 3D hydrodynamic contact: C. A. Caciu and E. Decenciére ... Prediction of developing turbulent flow in 90°-curved ducts using linear and non-linear low-Re k—« models: M. Raisee, H. Alemi and H. lacovides An implicit Lagrangian lattice Boltzmann method for the compressible flows: G. Yan, Y. Dong and Y. Liu Stability of Navier-Stokes discretizations on collocated meshes of high anisotropy and the performance of algebraic multigrid solvers: R. Webster AUTHOR INDEX

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