A code for fast, massively-parallel direct numerical simulations (DNS) of canonical flows

Basic Computational Fluid Dynamics (CFD) schemes implemented in FORTRAN using Finite-Volume and Finite-Difference Methods. Sample simulations and figures are provided.

OFF, Open source Finite volume Fluid dynamics code

Phantom Smoothed Particle Hydrodynamics and Magnetohydrodynamics code

Wavelet Adaptive Block-Based solver for Interactions with Turbulence

A three-dimensional unstructured finite volume code for fluid flow simulations.

A multi-block solver for massively parallel direct numerical simulations (DNS) of fluid flows

A code for fast, massively-parallel simulations of two-phase flows with heat transfer

Unstructured Finite Volume Solver for Partial Differential Equations

A DNS and LES box code

Simple (and not-so-simple) CFD solvers written in Fortran with Python plotting routines

Canonical direct and large-eddy simulation

Advanced Finite Difference flow solver with Multiple Resolution and Phase-Field implementations

Fluid simulation codes of atmosphere using discontinuous Galerkin finite element method. This project also provides a nonhydrostatic atmospheric model, SCALE-DG.

Source code of the numerical model developed by Bogoni et al. WRR 2017 to simulate the long-term migration of meandering rivers flowing above self-formed heterogeneous floodplains.

Compute Flow Parameters for a Couette-Poiseuille Flow.

A molecular dynamics solver for molecular fluid dynamics simulation

Expandable And Scalable Infrastructure for Finite Element Methods, EASIFEM, is [Modern Fortran](https://fortran-lang.org) framework for solving partial differential equations (PDEs) using finite element methods. EASIFEM "eases" the efforts to develop scientific programs in Fortran.

Open Source Flow Visualization

2D Navier-Stokes Equation Solver. Discretized using Finite Volume Method and solved via the Successive Over-Relaxation (SOR) Method.