OpenFOAM WebOgraphy Julien Reveillon : WEB links

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2 | Do not hesitate to send me links that may be of some interest or to signal me broken links -- thank you. | |||||||

3 | Dear authors, I can remove, modify the reference or add your document - just send me an email. | |||||||

4 | Contact : Julien.Reveillon@coria.fr | |||||||

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6 | Version 2015-09-11 | |||||||

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8 | Title of the document | Name, firstName (& al) | Major Key | Second key | Year | Institution first author | Style | |

9 | 1 | Modeling of compressible fluid problems with OpenFOAM using dynamic mesh technology | Aguerre, H. J. & al | dynamicMesh | 2013 | Research Center for Computational Mechanics, Argentina | paper | |

10 | 2 | Liquid bridge simulations with OpenFOAM | Aguilar, G.G. | application | multiphase | 2011 | Universitat Politecnica de Catalunya | Master thesis |

11 | 3 | Development of a Generalized Grid Interface for Turbomachinery simulations with OpenFOAM | Beaudoin, M. | application | fluidStructure | 2008 | Hydro-Quebec | paper |

12 | 4 | OpenFOAM's basic solvers for linear systems of equations Solvers, preconditioners, smoothers | Behrens, T. | solver | misc | 2009 | Chalmers | report |

13 | 5 | OpenFOAM project: A modification of the movingConeTopoFvMesh library | Bjerklund, E. | dynamicMesh | 2009 | Chalmers | report | |

14 | 6 | FoamedOver: A Dynamic Overset Grid Implementation in OpenFOAM | Boger, D. & al | dynamicMesh | 2010 | Pennsylvania State University | slides | |

15 | 7 | Computational continuum mechanics for sediment transport in free-surface flow | Bohorquez, P. | application | multiphase | 2008 | Universidad de Malaga | slides |

16 | 8 | Dynamic-Mesh techniques for unsteady multiphase surface-ship hydrodynamics | Casadei, G. M. | dynamicMesh | 2010 | Pennsylvania State University | report | |

17 | 9 | OpenFOAM for computational fluid dynamics | Chen, G. & al | OF basic | 2014 | Texas A&M University | paper | |

18 | 10 | Skeletal Muscle Fascicle Arrangements Can Be Reconstructed Using a Laplacian Vector Field Simulation | Choi, H.F. & al | application | bioMechanics | 2013 | University of Virginia | paper |

19 | 11 | Towards Simulating the Atmospheric Boundary Layer and Wind Farm Flows | Churchfield, M.J. & al | application | windEnergy | 2011 | NREL | slides |

20 | 12 | An Extended Mixture Model for the Simultaneous Treatment of Short and Long Scale Interfaces | Damian, S.M. | PhD | multiphase | 2013 | Universidad Nacional del Litoral, Argentina | PhD thesis |

21 | 13 | Description and utilization of interFoam multiphase solver | Damian, S.M. | solver | multiphase | 1900 | CIMEC | report |

22 | 14 | Présentation, essai et validation du logiciel open-source OpenFOAM | Debain, B. & al | OF basic | firstSteps | 2011 | IPSA | report |

23 | 15 | CFD modelling of ﬂoating body response to regular waves | Delaure, Y. | application | waves | 2010 | DCU - Dblin City University | slides |

24 | 16 | On Electromagnetically Induced Fluid Flows in Water | DeReus, M. | application | 2013 | Delft University of Technology | Master thesis | |

25 | 17 | Contribution a l'étude de la formation des sprays | Dos Santos, F. | PhD | multiphase | 2012 | Université de Bourgogne, France | PhD thesis |

26 | 18 | 6-DOF VOF-solver without Damping in OpenFOAM | Ekedahl, E. | solver | floatingObject | 2009 | Chalmers | report |

27 | 19 | InterDyMFoam coupled with forces and mesh motion in 6-DoF | Ekedahl, E. | solver | floatingObject | 2009 | Chalmers | slides |

28 | 20 | Handling non-linear mesh deformation with OpenFOAM | Fabritius, B. & al | dynamicMesh | 2008 | TU Bergacademie Freiberg | slides | |

29 | 21 | Simulation of turbulent channel flow over rippled bed with investigation of 4-way coupling for particles | Fonias E. | application | multiphase | 2015 | Chalmers | report |

30 | 22 | Evaluation of Turbulence Models for Prediction of Flow Separation at a Smooth Surface | Furbo, E. & al | modeling | turbulence | 2009 | Uppsala Universitet | report |

31 | 23 | Mesh motion alternatives | Gonzalez, A. O. | dynamicMesh | 2009 | Chalmers | report | |

32 | 24 | Mesh motion alternatives | Gonzalez, A. O. | dynamicMesh | 2009 | Chalmers | slides | |

33 | 25 | Description of porousSimpleFoam and adding the Brinkmann model to the porous models | Gooya, R. | solver | porous | 2014 | Chalmers | report |

34 | 26 | Sediment transport in open channel flows | Gruber, K. | application | hydro | 2012 | Johannes Kepler Universität Linz | master thesis |

35 | 27 | pyFoam -Productive use of OpenFOAM from the command line | Gschaider, B. F.W. | tips | 2013 | ICE | slides | |

36 | 28 | OpenFOAM hydrodynamics for yacht design | Gulinsky, O. | application | floatingObject | 1900 | Moscow Institute of Physics and Technology | report |

37 | 29 | Porous Media in OpenFOAM | Hafsteinsson H.E. | application | porous | 2009 | Chalmers | report |

38 | 30 | Simulating Wind Over Terrain: How to Build an OpenFOAM Case from GRASS GIS Digital Elevation Models | Hardin, E. | application | windEnergy | 2013 | unknown | paper |

39 | 31 | Free surface tutorial using interFoam and rasInterFoam | Hemida, H. | tutorial | multiphase | 2008 | Chalmers | report |

40 | 32 | Two-Phase pipeflow simulations with OpenFOAM | Herreras, N & al | application | multiphase | 2013 | Norwegian University of Science and Technology | report |

41 | 33 | Two-Phase Flows & Waves | Higueira, P. | solver | multiphase | 2013 | University of Cantabria | slides |

42 | 34 | OF cheat sheet | Höpken, J. | OF basic | 2015 | sourceflux | poster | |

43 | 35 | Implementation of Gasoline Properties in OpenFOAM Library | Huang C. | application | 2010 | Chalmers University of Technology | report | |

44 | 36 | Forchheimer Porous-media Flow Models - Numerical Investigation and Comparison with Experimental Data | Jambhekar, V.A. | application | porousMedia | 2011 | University of Stuttgart, Germany | Master thesis |

45 | 37 | Block coupled calculations in OpenFOAM | Jareteg, Klas | numerics | 2013 | Chalmers | report | |

46 | 38 | Error analysis and estimation for the finite volume method with applications to fluid flows | Jasak, H. | PhD | multiphase | 1996 | Imperial College, London | PhD thesis |

47 | 39 | Building Blocks and Library Organisation in OpenFOAM | Jasak, H. | bases | 2012 | University of Zagreb, Croatia | slides | |

48 | 40 | Dynamic Mesh handling in OpenFOAM | Jasak, H. | dynamicMesh | 2013 | WIKKI | slides | |

49 | 41 | Dynamic Mesh handling in OpenFOAM | Jasak, H. | dynamicMesh | 2009 | WIKKI | paper | |

50 | 42 | Finite Volume Discretisation in OpenFOAM | Jasak, H. | numerics | 2013 | WIKKI | slides | |

51 | 43 | OpenFOAM Tutorials: Basic Session | Jasak, H. | OF basic | firstSteps | 2007 | WIKKI | slides |

52 | 44 | Marine Hydrodynamics Solver in OpenFOAM | Jasak, H. & al | application | hydro | 2008 | WIKKI | slides |

53 | 45 | OpenFOAM Tutorials: Programming Session | Jasak, H. & al | OF basic | programming | 2010 | WIKKI | slides |

54 | 46 | Five Basic Classes in OpenFOAM | Jasak, H. & al | OF basic | firstSteps | 2010 | WIKKI | slides |

55 | 47 | Numerical simulation of three- dimensional flows in water storage tanks | Jaunâtre, J. | application | hydro | 2012 | Lunds University | master thesis |

56 | 48 | Implementation of a turbulent inflow boundary condition for LES based on a vortex method | Jorgensen, N.G. | bases | boundaryConditions | 2012 | Chalmers | report |

57 | 49 | Numerical investigation of a BFR using OpenFOAM | Kær S.K. | application | 2008 | Aalborg University | report | |

58 | 50 | Numerical Modelling of Diesel Spray Injection, Turbulence Interaction and Combustion | Kärrholm, F. P. | PhD | multiphase | 2008 | Chalmers | PhD Thesis |

59 | 51 | Rhie-Chow interpolation in OpenFOAM | Kärrholm, F. P. | OF basic | numerics | 2006 | Chalmers | report |

60 | 52 | Which strategy to move the mesh in the Computational Fluid Dynamic code OpenFOAM | Kassiotis, C. | dynamicMesh | 2008 | ENS Cachan | report | |

61 | 53 | Partitioned solution to fluid-structure interaction problem in application to free-surface flows | Kassiotis, C. & al | solver | fluidStructure | 2010 | ENS Cachan | paper |

62 | 54 | Development and Verification of a Navier-Stokes Solver with Vorticity Confinement Using OpenFOAM | Kimbrell, A.B. | application | 2012 | University of Tennessee | Master thesis | |

63 | 55 | A Coupled Volume-of-Fluid/ Level Set Method in OpenFOAM | Kisslin, K. | solver | multiphase | 2010 | University of Stuttgart, Germany | slides |

64 | 56 | Kissling, K. & al | programming | solver | 2010 | University of Stuttgart, Germany | paper | |

65 | 57 | dieselDyMFoam: dynamic mesh refinement in dieselFoam | Koesters, A. | dynamicMesh | combustion | 2010 | Chalmers | slides |

66 | 58 | Dynamic mesh refinement in dieselFoam | Koesters, A. | dynamicMesh | combustion | 2010 | Chalmers | report |

67 | 59 | Salome to OpenFOAM mesh conversion tutorial | Kulakov, Yury | meshing | 2010 | University of Malta | report | |

68 | 60 | CFD simulation of multicomponent gas flow through porous media | Kumar, C. M. | application | porousMedia | 2013 | Bergishe Universitat Wuppertal | Master thesis |

69 | 61 | Aerodynamic analysis of Sails with openfoam | Lderi, M. | application | fluidStructure | 2007 | Esteco, Trieste | slides |

70 | 62 | Application of OpenFOAM to prediction of hull resistance | Lee, S. B. | application | 2013 | Hyundai Heavy Ind. | slides | |

71 | 63 | Introduction to OpenFOAM | Lindberg, O. | OF basic | firstSteps | 2009 | Technical University of Denmark | slides |

72 | 64 | Implementation of a myInterFoamDiabatic solver with OpenFOAM | Liu, Q. | solver | multiphase | 2011 | Chalmers | report |

73 | 65 | Numerical simulation of sailing boats: dynamics, FSI, and shape optimization | Lombardi, M. | application | floatingObject | 2010 | EPFL, Lausanne | report |

74 | 66 | Lorentzon J. | application | fluidStructure | 2009 | Lunds University | master thesis | |

75 | 67 | Ship Resistance Simulations with OpenFOAM | Maki, K. | application | hydro | 2011 | Pennsylvania State University | slides |

76 | 68 | Modelling wind flow through canopy systems using OpenFOAM | Maldonado, J.M. | application | windEnergy | 2012 | University of Gävle | Master thesis |

77 | 69 | Geometrical Volume of Fluid (VoF) Method in OpenFOAM | Maric, T. & al | OF basic | volumeOfFluid | 2012 | TU Darmstadt | slides |

78 | 70 | Wind resource in complex terrain with OpenFOAM | Martinez B. | application | windEnergy | 2011 | Technical University of Denmark | master thesis |

79 | 71 | Multi-dimensional simulation of intake and exhaust systems for internal combustion engines | Montorfano, A. | PhD | combustion | 2012 | Politechnico Di Milano | PhD thesis |

80 | 72 | A tutorial on how to use Dynamic Mesh solver IcoDyMFOAM | Moradnia, P. | dynamicMesh | 2008 | Chalmers | report | |

81 | 73 | Application of the interFoam VOF code to coastal wave/structure interaction | Morgan, G.C.J. | PhD | coastal | 2013 | University of Bath | PhD thesis |

82 | 74 | Application of OpenFOAM in Hydraulics Engineering | Nguyen, V.T. | application | 2013 | Seoul National University | slides | |

83 | 75 | How to implement a new boundary condition | Nilsson, H. | bases | boundaryConditions | unknown | Chalmers | slides |

84 | 76 | Solving PDEs with OpenFOAM | Nilsson, H. | programming | pde | 1900 | Chalmers | slides |

85 | 77 | Turbomachinery | Nilsson, H. | application | 2013 | Chalmers | slides | |

86 | 78 | Tutorial: Mesh motion class of the Vigor Wave Energy Converter | Olander, M. | dynamicMesh | Chalmers | report | ||

87 | 79 | Development of multiphase flow solvers based on OpenFOAM for volcanological research | Ongaro, T.O. | application | multiphase | 2012 | Istituto Nazionale di Geofisica e Vulcanologia | slides |

88 | 80 | Study of liquid metal MHD flows using OpenFOAM | Panchal A. | application | mhd | 2011 | IIT Bombay | report |

89 | 81 | Make my solver | Park, S. | code | 2013 | NEXTfoam | slides | |

90 | 82 | The bubbleFoam solver | Passalacqua, A. | solver | multiphase | 2013 | Cocoon Project | report |

91 | 83 | Applications and case setup | Paterson, E. | OF basic | firstSteps | 2009 | Pennsylvania State University | slides |

92 | 84 | ￼6DOF RANS Simulations of Floating and Submerged Bodies using OpenFOAM | Paterson, E. & al | application | floatingObject | 2009 | Pennsylvania State University | slides |

93 | 85 | Efficient computations of wave loads on offshore structures | Paulsen, B.T. | PhD | coastal | 2013 | DTU Mechanical Engineering | PhD thesis |

94 | 86 | Description and implementation of particle injection in OpenFOAM | Persson,A. | application | multiphase | 2010 | Chalmers | report |

95 | 87 | The ERCOFTAC centrifugal pump OpenFOAM case-study | Petit, Olivier & al | dynamicMesh | 2009 | Chalmers | paper | |

96 | 88 | Development of Fully-Automatic Parallel Algorithms for Mesh Handling of ICE in OpenFOAM®-2.2.x | Piscaglia & al | dynamicMesh | 2013 | Politecnico di Milano | slides | |

97 | 89 | Modelling multiphase flow through micro-CT images of the pore space | Raeini, A.Q. | PhD | multiphase | 2013 | Imperial College, London | PhD thesis |

98 | 90 | Coastal Structure Optimisation Using Advanced Numerical Methods | Richardson S. & al | application | 2013 | HR Wallingford | report | |

99 | 91 | Comparative Study of the CFD codes Mistral and OpenFOAM | Rivola, V. | application | fluidStructure | 2007 | R-TEC | master thesis |

100 | 92 | Simple beginning 3D OpenFOAM Tutorial | Rodriguez, S. | application | hydrodynamics | 2009 | libremechanics | report |

101 | 93 | Rip current on a barred beach | Ruju, A. & al | application | coastal | 2013 | University of Cantabria | paper |

102 | 94 | Computational Fluid Dynamics of Dispersed Two-Phase Flows at High Phase Fractions | Rusche, H. | PhD | multiphase | 2002 | Imperial College, London | PhD thesis |

103 | 95 | CFD Analysis of a Pelton Turbine in OpenFOAM | Rygg, J.R. | application | 2013 | NTNU-Trondheim | Master thesis | |

104 | 96 | A wave motion class | Sam A.A. | programming | multiphase | 2013 | Chalmers | report |

105 | 97 | A wave motion class | Sam, Ali Al | dynamicMesh | Chalmers | report | ||

106 | 98 | CDF study of thick flatback airfoils using OpenFOAM | Sanz J.M.M. | application | 2011 | DTU Mechanical Engineering | Master thesis | |

107 | 99 | Large Eddy Simulation of wind turbines: interaction with turbulent flow | Schito, P. | PhD | fluidStructure | 2011 | Politechnico Di Milano | PhD thesis |

108 | 100 | LES modelling of wind turbines | Schito, P. | application | fluidStructure | 2012 | Politechnico Di Milano | slides |

109 | 101 | Tutorial for Natural Convection Boundary Layer | Shiri A. | application | 2008 | Chalmers | report | |

110 | 102 | Development and implementation of a polydispersed multiphase flow model in OpenFOAM | Silva, L.F.L.R. | modeling | multiphase | 2011 | Universidade Federal do Rio de Janeiro | paper |

111 | 103 | Smith, K.R. | application | fluidStructure | 2009 | Pennsylvania State University | Master thesis | |

112 | 104 | Soulaine, C. | PhD | porousMedia | 2012 | INP Toulouse | PhD thesis | |

113 | 105 | Initiation à la CFD open-source avec le code OpenFOAM | Soulaine, C. | OF basic | firstSteps | 2013 | IMFT | slides |

114 | 106 | Introduction to fluid mechanics simulation using the OpenFOAM® technology Part I | Soulaine, C. | application | porousMedia | 2014 | Stanford University | slides |

115 | 107 | Introduction to fluid mechanics simulation using the OpenFOAM® technology Part II | Soulaine, C. | application | porousMedia | 2014 | Stanford University | slides |

116 | 108 | Introduction to fluid mechanics simulation using the OpenFOAM® technology Part III | Soulaine, C. | application | porousMedia | 2014 | Stanford University | slides |

117 | 109 | Soulaine, C. | PhD | porousMedia | 2012 | IMFT | PhD thesis | |

118 | 110 | Springer, J. & al | programming | solver | 2010 | University of Ulm, Germany | slides | |

119 | 111 | Incorporation of the effects of accelerating flow in the design of granular bed protections | Steenstra, R.S. | application | 2014 | Delft University of Technology | report | |

120 | 112 | Numerical and Analytical Study of Steady State and Transient Heat Transfer in Liquid Filled Dead legs. | Sundt, E.M.W. | application | 2012 | University of Stavanger | Master thesis | |

121 | 113 | Implementation of solid body stress analysis in OpenFOAM | Tang, T. | application | fluidStructure | 2012 | Chalmers | report |

122 | 114 | Modelling of wind flow over complex terrain using OpenFoam | Tapia, X.P. | application | windEnergy | 2009 | University of Gauvle | master thesis |

123 | 115 | Modeling of Direct Contact Condensation With OpenFOAM | Thiele, R. | application | multiphase | 2010 | Royal Institute of Technology Stockholm | Master thesis |

124 | 116 | Modeling liquid dominated two-phase flow in geothermal reservoirs in vicinity to, and inside wells | Thorvaldsson, L. | application | multiphase | 2012 | University of Iceland | paper |

125 | 117 | A numerical analysis on flow in hydrothermal systems | Thorvaldsson, L. | application | multiphase | 2013 | University of Iceland | paper |

126 | 118 | Programming session: from the C++ basics to the compilation of user libraries | Trimarchi, D. | programming | misc | 2011 | University of Southampton | slides |

127 | 119 | OpenFOAM workshop | Trimarchi, D. | OF basic | firstSteps | 2010 | University of Southampton | slides |

128 | 120 | Fluid Structure Interactions in OpenFOAM | Trimarchi, D. | application | fluidStructure | 2011 | University of Southampton | slides |

129 | 121 | Fluid Structure Interactions of sail type structures | Trimarchi, D. & al | application | fluidStructure | 2011 | University of Southampton | slides |

130 | 122 | Numerical prediction of two fluid system with sharp interface | Ubbink, O. | PhD | multiphase | 1997 | Imperial College, London | PhD thesis |

131 | 123 | MovingWave class cuttingPlane class Velocity Profile postprocess | unknown | dynamicMesh | Chalmers | slides | ||

132 | 124 | CompressibleMixingPhaseChangeFoam, model equations | unknown | solver | multiphase | 1900 | os-cfd | slides |

133 | 125 | Coupling of VOF with LPT in OpenFOAM | Vallier, A. | programming | solver | 2011 | Chalmers | slides |

134 | 126 | Experimental and numerical studyof wave induced porous flow in rubble mound breakwaters | Vanneste, D. | application | coastal | 1900 | University of Gent | PhD thesis |

135 | 127 | A tensorial approach to computational continuum mechanics using object-oriented techniques | Weller, H.G. & al | OF basic | 1998 | Imperial College, London | paper | |

136 | 128 | Wuthrich, B. | application | 2007 | Institute of Fluid Dynamics ETH Zurich | Master thesis | ||

137 | 129 | OpenFOAM Project: WhipLashMotion Library | Yang, J. | dynamicMesh | 2009 | Chalmers | report | |

138 | pyFoam Happy foaming with Python | Gschaider, B. F.W. | pospro | 2009 | ICE Stromungsforschung | slides | ||

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