Struggling to choose between Code_Saturne and OpenFOAM? Both products offer unique advantages, making it a tough decision.
Code_Saturne is a Science & Engineering solution with tags like cfd, fluid-flow, turbulence-modeling, finite-volume-method, open-source.
It boasts features such as Computational fluid dynamics, Turbulence modeling, Conjugate heat transfer, Radiative heat transfer, Lagrangian particle tracking, Immersed volumes method for complex geometries, Parallel processing with MPI, Pre- and post-processing with Salome platform, Scripting with Python and pros including Open source and free, Good for research and industrial applications, Advanced physics modeling capabilities, Scriptable and extensible, Scales to large simulations with MPI, Pre- and post-processing integration.
On the other hand, OpenFOAM is a Science & Engineering product tagged with cfd, fluid-flow, meshing, solvers, parallel-processing, visualization.
Its standout features include Mesh generation and processing tools, Wide range of physical modeling capabilities including compressible/incompressible fluids, multiphase flows, chemical reactions, turbulence, heat transfer, electromagnetics, solid mechanics, Parallel processing support, Pre- and post-processing utilities for visualization and data analysis, and it shines with pros like Free and open source, Large user community, Modular code structure allows customization, Good parallel scaling, Wide range of applications.
To help you make an informed decision, we've compiled a comprehensive comparison of these two products, delving into their features, pros, cons, pricing, and more. Get ready to explore the nuances that set them apart and determine which one is the perfect fit for your requirements.
Code_Saturne is an open-source computational fluid dynamics software designed for industrial applications and research. It simulates 3D turbulent fluid flow using an unstructured collocated finite volume method.
OpenFOAM is an open source computational fluid dynamics software package used to simulate fluid flow problems. It includes tools for meshing, solvers, parallel processing, visualization, etc.