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100   $a20200222d2020      u|         0
101 0 $aeng
135   $aurnn|008mamaa
181   $ctxt$2rdacontent
182   $cc$2rdamedia
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200 10$aNumerical Methods for Flows $eFEF 2017 Selected Contributions /$fedited by Harald van Brummelen, Alessandro Corsini, Simona Perotto, Gianluigi Rozza
205   $a1st ed. 2020.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2020.
215   $a1 online resource (XII, 362 p. 186 illus., 81 illus. in color.) 
225 1 $aLecture Notes in Computational Science and Engineering,$x2197-7100 ;$v132
311 08$a3-030-30704-2 
327   $a1 L. Silva et al., Simulation of Complex High Reynolds Flows with a VMS method and Adaptive Meshing -- 2 B. Bastl et al., Comparison of coupled and decoupled solvers for incompressible Navier-Stokes equations solved by isogeometric analysis -- 3 A. Jaeschke and M. Möller, High-Order Isogeometric Methods for Compressible Flows. I. Scalar Conservation Laws -- 4 M. Möller and A. Jaeschke, High-Order Isogeometric Methods for Compressible Flows. II. Compressible Euler Equations -- 5 G. Tumolo and L. Bonaventura, Simulations of Non-hydrostatic Flows by an Efficient and Accurate p-adaptive DG Method -- 6 L. Bonaventura et al., A fully semi-Lagrangian method for the Navier?Stokes equations in primitive variables -- 7 A. Dervieux et al., Mesh adaptation for k-exact CFD approximations -- 8 M. R. A. Abdelmalik and E. H. van Brummelen, Entropy Stable Discontinuous Galerkin Finite Element Moment Methods for Compressible Fluid Dynamics -- 9 M. Make et al., Space-Time NURBS-Enhanced Finite Elements forSolving the Compressible Navier-Stokes Equations -- 10 S. Santoso et al., Fluid Flow Simulation from geometry data based on point clouds -- 11 C. Miles et al., Thermomechanically-consistent phase-field modelling of thin film flows -- 12 K. Bicol and A. Quaini, On the sensitivity to model parameters in a filter stabilization technique for advection dominated advection-diffusion-reaction problems -- 13 J. K. Ryan and J. Docampo, One-dimensional Line SIAC filtering for multi-dimensions: Applications to Streamline Visualization -- 14 J. H. Spühler et al., A high performance computing framework for finite element simulation of blood flow in the left ventricle of the human heart -- 15 B. S. Hosseini and M. Möller, Phase field-based incompressible two-component liquid flow simulation -- 16 J. Watkins et al., A study on the performance portability of the finite element assembly process within the Albany Land Ice solver -- 17 A. Johansson et al., A MultiMesh Finite Element Method for the Stokes Problem -- 18 Y. Mesri et al., A variational multi-scale anisotropic mesh adaptation scheme for aerothermal problems -- 19 N. Ferro et al., Density-based inverse homogenization with anisotropically adapted elements -- 20 H. Hajduk et al., Bathymetry reconstruction using inverse shallow water -- 21 E. G. Phillips et al., Enabling Scalable Multifluid Plasma Simulations through Block Preconditioning -- 22 S. Hijazi et al., The Effort of Increasing Reynolds Number in Projection-Based Reduced Order Methods: from Laminar to Turbulent Flows -- 23 J. M. Maljaars et al., Optimization Based Particle-Mesh Algorithm for High-Order and Conservative Scalar Transport -- 24 P. T. Lin et al., Krylov smoothing for fully-coupled AMG preconditioners for VMS resistive MHD -- 25 I. K. Marchevsky and G. A. Shcheglov, Double Layer Potential Density Reconstruction Procedure For 3D Vortex Methods -- 26 T. Yamada and K. Goto, Balancing Domain Decomposition Method on Additive Schwartz Framework for Multi-level Implementation -- 27 M. Gerritsma et al., Algebraic dual polynomials for the equivalence of curl-curl problems -- 28 K. Masui et al., Multiple-precision Iterative Methods for Solving Complex Symmetric Electromagnetic Systems -- 29 D. Kuzmin, Gradient-based limiting and stabilization of continuous Galerkin methods -- 30 J. Llobell et al., High order CG schemes for KdV and Saint-Venant flows.
330   $aThis book includes selected contributions on applied mathematics, numerical analysis, numerical simulation and scientific computing related to fluid mechanics problems, presented at the FEF-?Finite Element for Flows? conference, held in Rome in spring 2017. Written by leading international experts and covering state-of-the-art topics in numerical simulation for flows, it provides fascinating insights into and perspectives on current and future methodological and numerical developments in computational science. As such, the book is a valuable resource for researchers, as well as Masters and Ph.D students.
410  0$aLecture Notes in Computational Science and Engineering,$x2197-7100 ;$v132
606   $aDifferential equations
606   $aMathematics
606   $aNumerical analysis
606   $aMathematics$xData processing
606   $aMathematical models
606   $aEngineering mathematics
606   $aEngineering$xData processing
606   $aDifferential Equations
606   $aApplications of Mathematics
606   $aNumerical Analysis
606   $aComputational Science and Engineering
606   $aMathematical Modeling and Industrial Mathematics
606   $aMathematical and Computational Engineering Applications
615  0$aDifferential equations.
615  0$aMathematics.
615  0$aNumerical analysis.
615  0$aMathematics$xData processing.
615  0$aMathematical models.
615  0$aEngineering mathematics.
615  0$aEngineering$xData processing.
615 14$aDifferential Equations.
615 24$aApplications of Mathematics.
615 24$aNumerical Analysis.
615 24$aComputational Science and Engineering.
615 24$aMathematical Modeling and Industrial Mathematics.
615 24$aMathematical and Computational Engineering Applications.
676   $a620.106
702   $avan Brummelen$b Harald$4edt$4http://id.loc.gov/vocabulary/relators/edt
702   $aCorsini$b Alessandro$4edt$4http://id.loc.gov/vocabulary/relators/edt
702   $aPerotto$b Simona$4edt$4http://id.loc.gov/vocabulary/relators/edt
702   $aRozza$b Gianluigi$4edt$4http://id.loc.gov/vocabulary/relators/edt
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910483013703321
996   $aNumerical Methods for Flows$92215801
997   $aUNINA