Finite Volumes for Complex Applications X—Volume 2, Hyperbolic and Related Problems

W. Aboussi, M. Ziggaf, I. Kissami and M. Boubekeur_A finite volume scheme with a diffusion control parameter on unstructured hybrid mesh: application to two-dimensional Euler equations.- L. Baroukh and E. Audusse, Flow of Newtonian fluids in a pressurized pipe.- W. Barsukow, Truly multi-dimensional all-speed methods for the Euler equations.- T. Bellotti, Monotonicity for genuinely multi-step methods: results and issues from a simple lattice Boltzmann scheme.- C. Birke and C. Klingenberg, A Low Mach Number Two-speed Relaxation Scheme for Ideal MHD Equations.- G. Birke, C. Engwer, S. May and F. Streitbürger, Domain of Dependence stabilization for the acoustic wave equation on 2D cut-cell meshes.- J. Bussac and K. Saleh, Numerical simulation of a barotropic two-phase flow model with miscible phases.- S. Chu and A. Kurganov, Local Characteristic Decomposition Based Central-Upwind Scheme for Compressible Multifluids.- F. Dubois and J. Antonio Rojas-Quintero, Simpson's quadrature for a nonlinear variational symplectic scheme.- E. Chudzik, C. Helzel and Yanick-Florian Kiechle, An Active Flux Method for the Vlasov-Poisson System.- M. Dumbser, S. Busto and A. Thomann, On thermodynamically compatible finite volume schemes for overdetermined hyperbolic systems.- M. Ferrand, Jean-Marc Hérard, T. Norddine and S. Ruget, A scheme using the wave structure of second-moment turbulent models for incompressible flows.- T. Galié, S. Kokh, Ahmad El Halabi, K. Saleh and P. Fernier, Study of a Numerical Scheme with Transport-Acoustic Operator Splitting on a Staggered Mesh.- C. Fiorini, Uncertainty propagation of the shock position for hyperbolic PDEs using a sensitivity equation method.- C. Ghosn, T. Goudon and S. Minjeaud, Staggered MUSCL scheme for Euler equation.- M. Girfoglio, A. Quaini and G. Rozza, GEA: a new finite volume-based open source code for the numerical simulation of atmospheric and ocean flows.- P. Helluy and R. Hélie, Stable second order boundary conditions forkinetic approximations.- A. Iollo, G. Puppo and A. Thomann, Two-dimensional linear implicit relaxed scheme for hyperbolic conservation laws.- H. H. Holm and F. Beiser, Reducing Numerical Artifacts by Sacrificing Well-Balance for Rotating Shallow-Water Flow.- G. Jomée and Jean-Marc Hérard, Relaxation process in an immiscible three-phase flow model.- J. Jung, I. Lannabi and V. Perrier, On the convergence of the Godunov scheme with a centered discretization of the pressure gradient.- J. Keim, A. Schwarz, S. Chiocchetti, A. Beck and C. Rohde, A Reinforcement Learning Based Slope Limiter for Two-Dimensional Finite Volume Schemes.- S.-C. Klein, Essentially Non-Oscillatory Schemes using the Entropy Rate Criterion.- T. Laidin and T. Rey, Hybrid Kinetic/Fluid numerical method for the Vlasov-Poisson-BGK equation in the diffusive scaling.- M. Mehrenberger, L. Navoret and Anh-Tuan Vu, Composition schemes for the guiding-center model.- M. Ndjinga and K. Ait-Ameur, TVD analysis of a (pseudo-)staggered scheme for the isentropic Euler equations.- F. Peru, Backward reconstruction for non resonant triangular systems of conservation laws.- Sri Redjeki Pudjaprasetya and P. V. Swastika, Two-layer exchange flow with time-dependent barotropic forcing.- G. Schnücke, Split Form Discontinuous Galerkin Methods for Conservation Laws.- L. Renelt, C. Engwer and M. Ohlberger, An optimally stable approximation of reactive transport using discrete test and infinite trial spaces.- A. Toufaili, S. Gavrilyuk, O. Hurisse and Jean-Marc Hérard, An hybrid solver to compute a turbulent compressible model.