Finite Volumes for Complex Applications X-Volume 1, Elliptic and Parabolic Problems

Invited papers, R. Abgrall, A personal discussion on conservation, and how to formulate it.- W. Boscheri, C. Birke and C. Klingenberg, A high order semi-implicit scheme for ideal magnetohydrodynamics.- A. Artoni, P. F. Antonietti, R. Corradi, I. Mazzieri, N. Parolini, D. Rocchi, P. Schito and Francesco F. Semeraro, AeroSPEED: a high order acoustic solver for aeroacoustic applications.- C. Cancès, M. Herda and A. Massimini, Finite volumes for a generalized Poisson-Nernst-Planck system with crossdiffusion and size exclusion.- X. D. Sánchez and J. Ryan, Magic SIAC Toolbox: A Codebase of Effective, Efficient, and Flexible Filters.- C. Helzel and E. Chudzik, A Review of Cartesian Grid Active Flux Methods for Hyperbolic Conservation Laws.- C. Rohde, Moving-Mesh Finite-Volume Methods for Hyperbolic Interface Dynamics.- M. Peszynska, Mixed dimensional modeling with overlapping continua on Cartesian grids for complex applications.- Contributed papers: Pierre-Loïc Bacq, Antoine Gerschenfeldand Michael Ndjinga, PolyMAC: staggered finite volume methods on general meshes for incompressible Navier-Stokes problems.- C. Bauzet, F. Nabet, K. Schmitz and A. Zimmermann, Finite Volume Approximations for Non-Linear Parabolic Problems with Stochastic Forcing.- F. Benkhaldoun and Abdallah Bradji, A new analysis for a super-convergence result in the divergence norm for Lowest Order Raviart-Thomas Mixed Finite Elements combined with the Crank-Nicolson method applied to one dimensional parabolic equations.- Benkhaldoun, Fayssal, Bradji, Abdallah, An L8(H1)-error estimate for Gradient Schemes applied to time fractional diffusion equations.- Jerome Bonelle and Thomas Fonty, Compatible Discrete Operator schemes for solidification and segregation phenomena.- M. Boutilier, K. Brenner and V. Dolean, Trefftz approximation space for Poisson equation in perforated domains.- C. Cancès, J. Cauvin-Vila, C. Chainais-Hillairet and V. Ehrlacher, Structure Preserving Finite Volume Approximation of Cross-Diffusion Systems Coupled by a Free Interface.- C. Chainais-Hillairet and M. Alfaro, Finite volume scheme for the diffusive field-road model: study of the long time behaviour.- C. Chainais-Hillairet, R. Eymard and J. Fuhrmann, An approximate two-point Dirichlet flux for quasilinear convection diffusion equations.- Z. Chehade and Y. Coudière, The Two-Point Finite Volume Scheme for the Microscopic Bidomain Model of Electrocardiology.- E. Chénier, C. Le Potier, Erell Jamelot and Andrew Peitavy, Improved Crouzeix-Raviart scheme for the Stokes problem.- S. Clément, F. Lemarié and E. Blayo, Towards a finite volume discretization of the atmospheric surface layer consistent with physical theory.- J. Droniou, M. Laaziri and R. Masson, Thermodynamically Consistent discretisation of a Thermo-HydroMechanical model.- E. Eggenweiler, J. Nickl and I. Rybak, Justification of Generalized Interface Conditions for Stokes-Darcy Problems.- J. Fuhrmann, B. Gaudeul and C. Keller, Two entropic finite volume schemes for a Nernst-Planck-Poisson system with ion volume constraints.- M. Gander, J. Hennicker, R. Masson and T. Vanzan, Dimensional reduction by Fourier analysis of a Stokes-Darcy fracture model.- M. Heida, Finite Volumes for Simulation of Large Molecules.- M. M. Knodel, Arne Nägel, Eva Herrmann and Gabriel Wittum, PDE models of virus replication merging 2D manifold and 3D volume effects evaluated at realistic reconstructed cell geometries.- S. Krell and J. Moatti, Structure-preserving schemes for drift-diffusion systems on general meshes: DDFV vs HFV.- S. Matera, D. Runge and C. Merdon, Reduced Basis Approach for convection-diffusion equations with non-linear boundary reaction conditions.- J. Moatti, A skeletal high-order structure preserving scheme for advection-diffusion equations.- G. Narváez, M. Ferrand, T. Fonty and S. Benhamadouche, Automatic solid reconstructionfrom 3-D points set for flow simulation via an immersed boundary method.- L. Ruan and I. Rybak, Stokes-Brinkman-Darcy Models for Coupled Free-Flow and Porous-Medium Systems.- P. Strohbeck, C. Riethmüller, D. Göddeke and I. Rybak, Robust and Efficient Preconditioners for Stokes-Darcy Problems.- C. Thomas, S. Mazen and El-Houssaine Quenjel, A DDFV Scheme for Incompressible Two-Phase Flow Degenerate Problem in Porous Media.- Author Index.