Godunov methods. Theory and applications. International conference, Oxford, GB, October 1999 (Q2763621)

The articles of this volume will be reviewed individually.NEWLINENEWLINEIndexed articles:NEWLINENEWLINE\textit{Aiso, Hideaki}, Oleǐnik's E-condition from the viewpoint of numerics, 1-25 [Zbl 0991.65082]NEWLINENEWLINE\textit{Abgrall, R.; Barth, T. J.}, New results for residual distribution schemes, 27-43 [Zbl 0989.65090]NEWLINENEWLINE\textit{Aloy, M. A.; Ibanyez, J. M.; Marti, J. M.; Gomez, J. L.; Mueller, E.}, Simulations of relativistic jets with genesis, 45-52 [Zbl 1007.83508]NEWLINENEWLINE\textit{Aloy, M. A.; Mueller, E.; Ibanyez, J. M.; Marti, J. M.; MacFadyen, A.}, Relativistic jets from collapsars, 53-59 [Zbl 1007.83506]NEWLINENEWLINE\textit{Anderson, J. A. D. W.; Sweby, P. K.}, Exact computation in numerical linear algebra: The discrete Fourier transform, 61-67 [Zbl 0990.65153]NEWLINENEWLINE\textit{Bagabir, A.; Drikakis, D.}, Comparative study of HILL, HLLC and hybrid Riemann solvers in unsteady compressible flows., 69-75 [Zbl 1064.76584]NEWLINENEWLINE\textit{Bartsch, P.; Borzi', A.}, A new reconstruction technique for the Euler equations of gas dynamics with source terms., 77-88 [Zbl 1056.76051]NEWLINENEWLINE\textit{Beccantini, A.}, Colella-Glaz splitting scheme for thermally perfect gases, 89-95 [Zbl 1064.76553]NEWLINENEWLINE\textit{Ben Moussa, B.}, Meshless particle methods: recent developments for nonlinear conservation laws in bounded domain, 97-108 [Zbl 0990.65115]NEWLINENEWLINE\textit{Berezowski, A.; Maugin, G. A.}, Application of wave-propagation algorithm to two-dimensional thermoelastic wave propagation in inhomogeneous media., 109-116 [Zbl 1064.74687]NEWLINENEWLINE\textit{Berzins, M.; Durbeck, L. J. K.}, Unstructured mesh solvers for hyperbolic PDEs with source terms: Error estimates and mesh quality, 117-123 [Zbl 0989.65088]NEWLINENEWLINE\textit{Bonaventura, L.; Gross, E. S.}, Constancy preserving, conservative methods for free-surface models., 125-133 [Zbl 1064.76555]NEWLINENEWLINE\textit{Bonfiglioli, A.}, Hyperbolic-elliptic splitting for the pseudo-compressible Euler equations., 135-140 [Zbl 1064.76556]NEWLINENEWLINE\textit{Borthwick, A. G. L.; Fujihara, M.; Rogers, B. D.}, Godunov solution of shallow water equations on curvilinear and quadtree grids., 141-148 [Zbl 1056.76052]NEWLINENEWLINE\textit{Catalano, L. A.}, A higher-order-accurate reconstruction for the computation of compressible flows on cell-vertex triangular grids., 149-154 [Zbl 1064.76557]NEWLINENEWLINE\textit{Chiavassa, G.; Donat, R.}, Numerical experiments with multilevel schemes for conservation laws, 155-160 [Zbl 0989.65091]NEWLINENEWLINE\textit{Colella, Phillip}, Volume-of-fluid methods for partial differential equations, 161-177 [Zbl 0989.65118]NEWLINENEWLINE\textit{Coquel, F.; Godlewski, E.; Perthame, B.; In, A.; Rascle, P.}, Some new Godunov and relaxation methods for two-phase flow problems., 179-188 [Zbl 1064.76545]NEWLINENEWLINE\textit{Csík, Árpád; Deconninck, Herman; Poedts, Stefaan}, Development of genuinely multidmensional upwind residual distribution schemes for the system of eight wave ideal magnetohydrodynamic equations on unstructured grids., 189-196 [Zbl 1064.76558]NEWLINENEWLINE\textit{Daru, Virginie; Tenaud, Christian}, Application of TVD high resolution schemes to the viscous shock tube problem., 197-202 [Zbl 1064.76585]NEWLINENEWLINE\textit{Declercq, E.}, Comparison of numerical solvers with Godunov scheme for multicomponent turbulent flows., 203-208 [Zbl 1064.76559]NEWLINENEWLINE\textit{Dedner, A.; Kröner, D.; Rohde, C.; Wesenberg, M.}, Godunov-type schemes for the MHD equations., 209-216 [Zbl 1064.76560]NEWLINENEWLINE\textit{Dedner, A.; Kröner, D.; Wesenberg, M.; Sofronov, I.}, Absorbing boundary conditions for astrophysical MHD simulations, 217-224 [Zbl 0993.85002]NEWLINENEWLINE\textit{Dellacherie, S.}, About kinetic schemes built in axisymmetrical and spherical geometries., 225-232 [Zbl 1064.76595]NEWLINENEWLINE\textit{Després, Bruno}, Lagrangian systems of conservation laws and approximate Riemann solvers, 233-245 [Zbl 1015.76054]NEWLINENEWLINE\textit{De Sterck, H.; Poedts, S.}, Intermediate shocks in 3D MHD bow shock flows., 247-252 [Zbl 1064.76633]NEWLINENEWLINE\textit{Di Mascio, A.; Broglia, R.; Favini, B.}, A second order Godunov-type scheme for naval hydrodynamics., 253-261 [Zbl 1064.76561]NEWLINENEWLINE\textit{Drikakis, D.}, Uniformly high-order methods for unsteady incompressible flows., 263-283 [Zbl 1065.76146]NEWLINENEWLINE\textit{Erduran, K. S.; Kutija, V.}, Application of the finite volume method with Osher scheme \& split technique for different types of flow in a channel., 285-291 [Zbl 1064.76546]NEWLINENEWLINE\textit{Falcone, M.; Ferretti, R.}, A-priori estimates for a semi-Lagrangian scheme for the wave equation, 293-300 [Zbl 0989.65108]NEWLINENEWLINE\textit{Falle, S. A. E. G.}, Interstellar shock structures in weakly ionised gases, 301-307 [Zbl 0999.85001]NEWLINENEWLINE\textit{Fedkiw, Ronald P.}, The ghost fluid method for numerical treatment of discontinuities and interfaces, 309-317 [Zbl 1015.76062]NEWLINENEWLINE\textit{Fjelde, Kjell Kåre; Karlsen, Kenneth Hvistendahl}, A hybrid primitive-conservative upwind scheme for the drift flux model., 319-326 [Zbl 1064.76563]NEWLINENEWLINE\textit{Font, José A.; Ibáñez, J. Maria; Papadopoulos, Philippos}, Numerical simulations of relativistic wind accretion onto black holes using Godunov-type methods, 327-333 [Zbl 0991.83031]NEWLINENEWLINE\textit{Forth, S. A.}, A second order accurate, space-time limited, BDF scheme for the linear advection equation., 335-342 [Zbl 1064.65525]NEWLINENEWLINE\textit{Garcia-Navarro, P.; Hubbard, M. E.; Brufau, P.}, Multidimensional upwind schemes: application to hydraulics., 343-365 [Zbl 1064.76565]NEWLINENEWLINE\textit{Giddings, R. D.}, HELMIT -- A new interface reconstruction algorithm., 367-376 [Zbl 1064.76586]NEWLINENEWLINE\textit{Godlewski, E.; Olazabal, M.; Raviart, P.-A.}, A Godunov-type method for studying the linearised stability of a flow. Application to the Richtmyer-Meshkov instability, 377-397 [Zbl 0989.65105]NEWLINENEWLINE\textit{Godunov, S. K.}, Thermodynamics, conservation laws and their rotation invariance, 399-410 [Zbl 0991.65079]NEWLINENEWLINE\textit{Gozalo, L.; Abgrall, R.}, A new limiter that improves TVD-MUSCL schemes, 411-417 [Zbl 1015.76055]NEWLINENEWLINE\textit{Guardone, A.; Quartapelle, L.}, Exact Roe linearization for van der Waals' gas, 419-424 [Zbl 0999.76093]NEWLINENEWLINE\textit{Gustafsson, Bertil}, The Godunov-Ryabenkii condition: The beginning of a new stability theory, 425-443 [Zbl 0990.65100]NEWLINENEWLINE\textit{Hanel, D.; Tran, L.; Vilsmeier, R.}, A front tracking method for hybrid grids, 445-452 [Zbl 0989.65092]NEWLINENEWLINE\textit{Hannemann, V.}, A problem of classical shock capturing finite volume schemes in hypersonic flows., 453-459 [Zbl 1064.76547]NEWLINENEWLINE\textit{Higgins, Stephen; O'Brien, Tim; Dunlop, James}, Orientation effects on bent extragalactic jets, 461-467 [Zbl 0999.85500]NEWLINENEWLINE\textit{Holden, Helge; Karlsen, Kenneth Hvistendahl; Lie, Knut-Andreas; Risebro, Nils Henrik}, Operator splitting for convection-dominated nonlinear partial differential equations, 469-475 [Zbl 0989.65093]NEWLINENEWLINE\textit{Hubbard, M. E.; Garcia-Navarro, P.}, Balancing source terms and flux gradients in finite volume schemes., 477-483 [Zbl 1064.76566]NEWLINENEWLINE\textit{Ibáñez, J. Maria; Aloy, M. A.; Font, J. A.; Martí, J. Maria; Miralles, J. A.; Pons, J. A.}, Riemann solvers in general relativistic hydrodynamics., 485-496 [Zbl 1064.76567]NEWLINENEWLINE\textit{Kaibara, M. K.; Gomes, S. M.}, A fully adaptive multiresolution scheme for shock computations., 497-503 [Zbl 1064.76589]NEWLINENEWLINE\textit{Klomfass, A.; Neuwald, P.; Thoma, K.}, Application of a Godunov-type ALE-method to underwater shock waves., 505-511 [Zbl 1064.76568]NEWLINENEWLINE\textit{Kokh, S.; Allaire, G.}, Numerical simulation of 2-D two-phase flows with interface., 513-518 [Zbl 1064.76548]NEWLINENEWLINE\textit{Komissarov, Serguei}, Relativistic MHD simulations using a Godunov-type method, 519-526 [Zbl 0999.76094]NEWLINENEWLINE\textit{Kröner, D.; Gessner, T.}, Godunov type methods on unstructured grids and local mesh refinement., 527-547 [Zbl 1064.76569]NEWLINENEWLINE\textit{Langseth, J. O.}, 3D visualization of shock waves using volume rendering., 549-556 [Zbl 1064.76600]NEWLINENEWLINE\textit{Lowe, C. A.; Clarke, J. F.}, Gas flows generated by propellant burning, 557-570 [Zbl 0999.76113]NEWLINENEWLINE\textit{Lukáčová-Medviďová, M.; Morton, K. W.; Warnecke, G.}, Finite volume evolution Galerkin methods for multidimensional hyperbolic systems, 571-576 [Zbl 0989.65114]NEWLINENEWLINE\textit{Marqina, Antonio}, The numerical simulation of relativistic fluid flow with strong shocks., 577-594 [Zbl 1064.76570]NEWLINENEWLINE\textit{Martínez, V.}, An artificial compression procedure via flux correction., 595-601 [Zbl 1064.76601]NEWLINENEWLINE\textit{Mazzia, A.; Bergamaschi, L.; Putti, M.}, A second order time-splitting technique for advection-dispersion equation on unstructured grids, 603-609 [Zbl 0989.65087]NEWLINENEWLINE\textit{Men'shov, I.; Nakamura, Y.}, Towards implicit Godunov method: exact linearization of the numerical flux., 611-622 [Zbl 1064.76571]NEWLINENEWLINE\textit{Moschetta, J.-M.}, Mass flux computation as a key to the carbuncle phenomenon., 623-629 [Zbl 1064.76573]NEWLINENEWLINE\textit{Moschetta, J.-M.; Gressier, J.}, On the positivity of FVS schemes., 631-637 [Zbl 1064.76574]NEWLINENEWLINE\textit{Moschetta, J.-M.; Gressier, J.; Robinet, J.-C.; Casalis, G.}, The carbuncle phenomenon: a genuine Euler instability?, 639-645 [Zbl 1064.76575]NEWLINENEWLINE\textit{Munz, C.-D.; Omnes, P.; Schneider, R.}, A Godunov-type solver for the Maxwell equations with divergence cleaning, 647-654 [Zbl 0986.78002]NEWLINENEWLINE\textit{Naldi, G.; Pareschi, L.; Toscani, G.}, Convergence of kinetic approximation to nonlinear parabolic problems., 655-662 [Zbl 1064.65530]NEWLINENEWLINE\textit{Neelz, S.; Wallis, S. G.; Manson, J. R.}, On options for the numerical modelling of the diffusion term in river pollution simulations., 663-670 [Zbl 1064.76576]NEWLINENEWLINE\textit{Noelle, Sebastian}, Multidimensional flux-vector-splitting and high-resolution characteristic schemes, 671-676 [Zbl 0990.65106]NEWLINENEWLINE\textit{Paillere, H.; Kumbaro, A.; Viozat, C.; Clerc, S.; Broquet, A.; Corre, C.}, A comparison of Roe, VFFC and AUSM+ schemes for two-phase water/steam flows., 677-683 [Zbl 1064.76577]NEWLINENEWLINE\textit{Pelanti, M.; Quartapelle, L.; Vigevano, L.}, Low dissipation entropy fix for positivity preserving Roe's scheme., 685-690 [Zbl 1064.76578]NEWLINENEWLINE\textit{Pham, M. H.; Rudgyard, M.; Süli, E.}, Bicharacteristic methods for multi-dimensional hyperbolic systems, 691-698 [Zbl 0989.65110]NEWLINENEWLINE\textit{Pons, J. A.; Marti, J. M.; Mueller, E.}, An exact Riemann solver for multidimensional special relativistic hydrodynamics., 699-705 [Zbl 1064.83500]NEWLINENEWLINE\textit{Qin, N.}, Experience with the Osher scheme for applied aerodynamics., 707-715 [Zbl 1064.76590]NEWLINENEWLINE\textit{Rider, William J.; Bates, Jason W.}, A high-resolution Godunov method for modeling anomalous fluid behaviour., 717-723 [Zbl 1064.76581]NEWLINENEWLINE\textit{Roe, Philip L.; Hittinger, Jeffrey A. F.}, Toward Godunov-type methods for hyperbolic conservation laws with stiff relaxation., 725-744 [Zbl 1036.76041]NEWLINENEWLINE\textit{Romensky, E. I.}, Thermodynamics and hyperbolic systems of balance laws in continuum mechanics, 745-761 [Zbl 1017.74004]NEWLINENEWLINE\textit{Saito, T.; Voinovich, P.; Timofeev, E.; Takayama, K.}, Development and application of high-resolution adaptive numerical techniques in shock wave research center, 763-784 [Zbl 0989.65098]NEWLINENEWLINE\textit{Saurel, Richard}, Interfaces, detonation waves, cavitation and the multiphase Godunov method., 785-807 [Zbl 1064.76582]NEWLINENEWLINE\textit{Schramm, Jens; Enk, Susanne; Köngeter, Jürgen}, One-dimensional calculation of unsteady open channel flow using adaptive mesh refinement., 809-814 [Zbl 1064.76591]NEWLINENEWLINE\textit{Schroll, Hans Joachim}, Error estimates for Godunov-type schemes in the presence of source terms, 815-821 [Zbl 0989.65107]NEWLINENEWLINE\textit{Schwane, R.}, A multi-dimensional Euler solver., 823-832 [Zbl 1064.76592]NEWLINENEWLINE\textit{Smolarkiewicz, P. K.; Margolin, L. G.}, MPDATA -- a multipass donor cell solver for geophysical flows., 833-839 [Zbl 1064.86500]NEWLINENEWLINE\textit{Städtke, H.; Worth, B.; Franchello, G.}, On the hyperbolic nature of two-phase flow equations: Characteristic analysis and related numerical methods., 841-862 [Zbl 1056.76056]NEWLINENEWLINE\textit{Steinebach, G.; Ngo, A. Q. T.}, A method of lines flux-difference splitting finite volume approach for 1D and 2D river flow problems., 863-871 [Zbl 1064.76583]NEWLINENEWLINE\textit{Sun, M.; Takayama, K.}, A simple smoothing TVD scheme on structured and unstructured grids, 873-878 [Zbl 0989.65097]NEWLINENEWLINE\textit{Sweby, Peter K.}, Godunov methods, 879-898 [Zbl 0990.65094]NEWLINENEWLINE\textit{Toro, E. F.; Hu, W.}, Centered unsplit finite volume schemes for multi-dimensional hyperbolic conservation laws, 899-906 [Zbl 0990.65095]NEWLINENEWLINE\textit{Toro, E. F.; Millington, R. C.; Nejad, L. A. M.}, Towards very high order Godunov schemes, 907-940 [Zbl 0989.65094]NEWLINENEWLINE\textit{Toro, E. F.; Vazquez-Cendon, M. E.}, Model hyperbolic systems with source terms: Exact and numerical solutions, 941-948 [Zbl 0989.65095]NEWLINENEWLINE\textit{van Brummelen, E. H.; Koren, B.}, A Godunov-type method for capturing water waves, 949-968 [Zbl 0999.76099]NEWLINENEWLINE\textit{van der Heul, D. R.; Vuik, C.; Wesseling, P.}, A staggered scheme for hyperbolic conservation laws applied to computation of flow with cavitation., 969-976 [Zbl 1064.76594]NEWLINENEWLINE\textit{Vanderstraeten, Denis}, An expert system to control the CFL number of implicit upwind methods., 977-984 [Zbl 1064.76602]NEWLINENEWLINE\textit{van der Vegt, J. J. W.; van der Ven, H.; Boelens, O. J.}, Discontinuous Galerkin methods for hyperbolic partial differential equations, 985-1005 [Zbl 0989.65115]NEWLINENEWLINE\textit{Vincent, S.; Caltagirone, J.-P.}, Solving incompressible two-phase flows with a coupled TVD interface tracking / local mesh refinement method., 1007-1014 [Zbl 1064.76593]NEWLINENEWLINE\textit{Walker, B. M.-J. B. D.; Nikiforakis, N.}, A large timestep Godunov-type model of global atmospheric chemistry and transport., 1015-1022 [Zbl 1064.86501]NEWLINENEWLINE\textit{Wendroff, B.}, Approximate Riemann solvers, Godunov schemes and contact discontinuities, 1023-1056 [Zbl 0991.65080]NEWLINENEWLINE\textit{Wesseling, P.; van der Heul, D. R.}, A unified method for compressible and incompressible flows with general equation of state, 1057-1064 [Zbl 1015.76057]NEWLINENEWLINE\textit{Young, Robin}, Wave interactions in nonlinear strings., 1065-1071 [Zbl 1052.74031]