simulation of incompressible flows in a lid driven cavity using euler explicit & staggered cartesian grid system.
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Updated
Jul 16, 2017 - C
simulation of incompressible flows in a lid driven cavity using euler explicit & staggered cartesian grid system.
Old version of our solver for the incompressible Navier-Stokes equations (no longer actively developed, please use the latest version of Incompact3d
Simple (and not-so-simple) CFD solvers written in Fortran with Python plotting routines
Simple 2D incompressible Navier-Stokes solver. Fully implemented in python.
A modern, unstructured, subsonic/supersonic flow solver.
Explicit incompressible Navier-stokes solver written in C based on finite-difference schemes
RBF Meshless Method for Incompressible Flow
A panel-based flow solver. Currently in beta but with working solvers for incompressible and inviscid hypersonic flow.
Staggered grid incompressible flow solver
Homogeneous Incompressible Isotropic Turbulence Simulator
Orr-Sommerfeld stability solvers for incompressible flows.
This repository contains a Fortran implementation of a 2D flow using the projection method, with Finite Volume Method (FVM) approach. The code solves Navier Stokes equations in a 2D lid driven cavity, with computation of the rotational as well.
template of an openfoam project with coded solver and boundary condition
template of an openfoam project with coded solver using SBM model
Official repo for MIDL 2023 oral paper: DRIMET: Deep Registration for 3D Incompressible Motion Estimation in Tagged-MRI with Application to the Tongue (Oral presentation)
Multi-threaded object-oriented computational fluid dynamics (CFD) code for three-dimensional incompressible fluid flow on a regular grid with the incompressible lattice-Boltzmann method (LBM) for general lattices (D2Q9, D3Q15, D3Q19, D3Q27, ...) with A-A pattern for indexing - programmed in C++17, multi-threaded with OpenMP
Machine Learning enhanced CFD solver for incompressible isothermal fluid flow
TRUST is a thermohydraulic software package for CFD simulations. It was originally designed for incompressible single-phase and Low Mach Number flows, but now also allows simulating real compressible multi-phase flows. TRUST is also being progressively ported to support GPU acceleration (NVidia/AMD). This software is OpenSource (BSD license).
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