OpenFOAM®

Presents latest developments in the OpenFOAM® computational library

Includes hands-on tutorials of developed solvers

Contains organized and self-contained information about technology

Presents latest developments in the OpenFOAM® computational library Includes hands-on tutorials of developed solvers Contains organized and self-contained information about technology

Zusammenfassung

Presents latest developments in the OpenFOAM® computational library

Includes hands-on tutorials of developed solvers

Contains organized and self-contained information about technology

Inhalt
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-le 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 Identication of the Noisiest Zones on the Surface of a Centrifugal Fan Blade.- Chap 25. Numerical Modeling of Flame Acceleration and Transition from Deagration 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 Inuence on Friction Loss and Heat Transfer on Structured Surfaces using Phase-Changing Mechanism.- Chap 31. SolidicationMeltingSource: A Built-in fvOption in OpenFOAM for Simulating Isothermal Solidication.- Chap 32. Study of OpenFOAM Efciency 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.