OpenFOAM®
Springer International Publishing (Verlag)
978-3-319-60845-7 (ISBN)
This book contains selected papers of the 11th OpenFOAM® Workshop that was held in Guimarães, Portugal, June 26 - 30, 2016.
The 11th OpenFOAM® Workshop had more than 140 technical/scientific presentations and 30 courses, and was attended by circa 300 individuals, representing 180 institutions and 30 countries, from all continents.
The OpenFOAM® Workshop provided a forum for researchers, industrial users, software developers, consultants and academics working with OpenFOAM® technology. The central part of the Workshop was the two-day conference, where presentations and posters on industrial applications and academic research were shown.
OpenFOAM® (Open Source Field Operation and Manipulation) is a free, open source computational toolbox that has a larger user base across most areas of engineering and science, from both commercial and academic organizations. As a technology, OpenFOAM® provides an extensive range of features to solve anything from complex fluid flows involving chemical reactions, turbulence and heat transfer, to solid dynamics and electromagnetics, among several others. Additionally, the OpenFOAM technology offers complete freedom to customize and extend its functionalities.
Chap 1. Added Mass Partitioned Fluid-structure Interaction Solver Based on a Robin Boundary Condition for Pressure.- Chap 2. CAD-Based Parameterization for Adjoint Optimization.- Chap 3. Cavitating Flow in a 3D Globe Valve.- Chap 4. CFD Analysis and Optimisation of Tidal Turbine Arrays using OpenFOAM.- Chap 5. Combining an OpenFOAMR-based Adjoint Solver with RBF Morphing for Shape Optimization Problems on the RBF4AERO Platform.- Chap 6. Development of a Combined Euler-Euler Euler-Lagrange Slurry Model.- Chap 7. Development of Data-Driven Turbulence Models in OpenFOAM: Application to Liquid Fuel Nuclear Reactors.- Chap 8. Differential Heating as a Strategy for Controling the Flow Distribution in Pro-file Extrusion Dies.- Chap 9. Drag Model for Coupled CFD-DEM Simulations of Non-Spherical Particles.- Chap 10. Enhanced Turbomachinery Capabilities for foam-extend: Development and Validation.- Chap 11. Evaluation of Energy Maximising Control Systems for Wave Energy Converters using OpenFOAM.- Chap 12. Floating Potential Boundary Condition in OpenFOAM.- Chap 13. Fluid Dynamic and Thermal Modeling of the Injection Molding Process in OpenFOAMR.- Chap 14. Free-surface Synamics in Induction Processing Applications.- Chap 15. GEN-FOAM: an OpenFOAMR-based Multi-Physics Solver for Nuclear Reactor Analysis.- Chap 16. Harmonic Balance Method for Turbomachinery Applications.- Chap 17. Implementation of a Flexible and Modular Multiphase Framework for the Analysis of Surface-Tension-Driven Flows Based on a LS-VOF Approach.- Chap 18. Implicitly Coupled Pressure-velocity Solver.- Chap 19. Improving the Numerical Stability of a Steady-State Differential Viscoelastic Flow Solver in OpenFOAMR.- Chap 20. IsoAdvector: Geometric VOF on General Meshes.- Chap 21. Liquid Atomization Modeling in OpenFOAM.- Chap 22. Lubricated Contact Model for Cold Metal Rolling Processes.- Chap 23. Modeling of turbulent ows in rectangular ducts using OpenFOAM.- Chap 24. Numerical Approach for Possible Identification of the Noisiest Zones on the Surface of a Centrifugal Fan Blade.- Chap 25. Numerical Modeling of Flame Acceleration and Transition from De agration to Detonation using OpenFOAM.- Chap 26. Open Source 3D CFD of a Quadrotor Cyclogyro Aircraft.- Chap 27. Shape Optimisation using Computational Fluid Dynamics and Evolutionary Algorithms.- Chap 28. Simulating Polyurethane Foams using the Modena Multi-Scale Simulation Framework.- Chap 29. Simulation of a Moving-bed and a Fluidized-bed Reactor by DPM and MPPIC in OpenFOAM.- Chap 30. Simulation of Particulate Fouling and its In uence on Friction Loss and Heat Transfer on Structured Surfaces using Phase-Changing Mechanism.- Chap 31. SolidificationMeltingSource: A Built-in fvOption in OpenFOAM for Simulating Isothermal Solidification.- Chap 32. Study of OpenFOAM Efficiency for Solving Fluid-Structure Interaction Problems.- Chap 33. The Harmonic Balance Method for Temporally Periodic Free Surface Flows.- Chap 34. Two-Way Coupled Eulerian-Eulerian Simulations of Drifting Snow with Viscous Treatment of the Snow Phase.- Chap 35. Use of OpenFOAMR for Investigation of Mixing Time in Agitated Vessels with Immersed Helical Coils.- Chap 36. Wind Turbine Diffuser Aerodynamic Study with OpenFOAM.
Erscheinungsdatum | 07.02.2019 |
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Zusatzinfo | X, 536 p. 287 illus., 212 illus. in color. |
Verlagsort | Cham |
Sprache | englisch |
Maße | 155 x 235 mm |
Gewicht | 935 g |
Themenwelt | Technik ► Maschinenbau |
Schlagworte | Complex fluid flows • computational science and engineering • Computer Aided Design • Computer-Aided Design (CAD) • Computer-Aided Engineering (CAD, CAE) and Design • Engineering • engineering fluid dynamics • Engineering: general • engineering thermodynamics • Engineering Thermodynamics, Heat and Mass Transfer • Maths for scientists • mechanical engineering • Mechanics of Fluids • multiphysics • numerical modeling • OpenFOAM® • Open Source • Open Source Field Operation and Manipulation • Solid dynamics |
ISBN-10 | 3-319-60845-2 / 3319608452 |
ISBN-13 | 978-3-319-60845-7 / 9783319608457 |
Zustand | Neuware |
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