FEATool Multiphysics

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OpenFOAM GUI and CFD Solver Integration with FEATool Multiphysics

OpenFOAM GUI and CFD Solver Integration with FEATool Multiphysics

OpenFOAM GUI and CFD Solver Integration with FEATool Multiphysics

OpenFOAM GUI and CFD Solver Integration with FEATool Multiphysics

Get started with OpenFOAM and CFD simulations in minutes with the easy to use and fully integrated GUI available with FEATool Multiphysics and CFDTool. With built-in geometry and CAD tools, automatic mesh generation, pre-defined flow solvers, and postprocessing and visualization functionality, setting up and running …

FEATool Multiphysics 1.14 - Parallel FEA, CFD, and Multiphysics Simulations

FEATool Multiphysics 1.14 with Parallel Processing Support for FEA, CFD, and Multiphysics Simulations

FEATool Multiphysics 1.14 with Parallel Processing Support for FEA, CFD, and Multiphysics Simulations

FEATool Multiphysics 1.14 - Parallel FEA, CFD, and Multiphysics Simulations

The FEATool Multiphysics™ version 1.14, and corresponding CFDTool™ 1.7, toolboxes are now available featuring built-in parallel processing support for the FEniCS FEA, and OpenFOAM and SU2 CFD solvers. Parallel Processing Support Full support for solving fully coupled multiphysics and computational fluid dynamics (CFD) …

FEATool Multiphysics 1.13 - CAD Geometry and Modeling Tool Updates

FEATool Multiphysics 1.13 with CAD Geometry and Modeling Tool Updates

FEATool Multiphysics 1.13 with CAD Geometry and Modeling Tool Updates

FEATool Multiphysics 1.13 - CAD Geometry and Modeling Tool Updates

FEATool Multiphysics™ version 1.13 is now available and has been updated with a complete suite of CAD geometry and modeling tools, making the FEATool simulation platform a one-stop-shop for all types of physics and engineering simulations. New Geometry Modeling Tools The FEATool Multiphysics geometry engine 1.13 has …

Space-Time FEM Transformation of Time-Dependent to Stationary Simulation Model

Space-Time Transformation of 1D Time-Dependent to a 2D Stationary Simulation Model

Space-Time Transformation of 1D Time-Dependent to a 2D Stationary Simulation Model

Space-Time FEM Transformation of Time-Dependent to Stationary Simulation Model

Space-Time Finite Element (FEM) Simulation FEATool Multiphysics is a very flexible CAE physics and continuum mechanics simulation toolbox, allowing users to customize, easily define, and solve their own systems of partial differential equations (PDE). In the following it is shown how the custom equation feature can be …

FEniCS Solver GUI and MATLAB Integration with FEATool Multiphysics

FEniCS GUI and MATLAB Interface with FEATool Multiphysics

FEniCS GUI and MATLAB Interface with FEATool Multiphysics

FEniCS Solver GUI and MATLAB Integration with FEATool Multiphysics

FEATool Multiphysics has now been updated to version 1.12.1 with significant improvements to the multi-solver simulation interfaces. In addition to supporting the built-in MATLAB multiphysics solver, and the computational fluid dynamics (CFD) solvers OpenFOAM and SU2, FEATool now also includes full support for the …

FEATool Multiphysics 1.12 - SU2 CFD Solver MATLAB Integration and GUI

FEATool Multiphysics 1.12 with built-in SU2 CFD Solver Interface

FEATool Multiphysics 1.12 with built-in SU2 CFD Solver Interface

FEATool Multiphysics 1.12 - SU2 CFD Solver MATLAB Integration and GUI

FEATool Multiphysics™ version 1.12 introduces a dedicated built-in solver interface for the SU2 Computational Fluid Dynamics (CFD) solver, updated 3D geometry modeling engine and CAD support, and improved 3D mesh generation. Precise Simulation, provider of unique software solutions for multi-physics and …

Implementation of an Algebraic Turbulence Model in FEATool Multiphysics

Custom Implementation of an Algebraic Turbulence Model

Custom Implementation of an Algebraic Turbulence Model

Implementation of an Algebraic Turbulence Model in FEATool Multiphysics

Performing accurate simulation of turbulent flows is still a challenging topic today, especially with limited computational resources. Although the Navier-Stokes equations are perfectly valid in the turbulent flow regime, one typically have to resort to some form of turbulence modeling in order to reduce computational …