Tsunami Simulator with parallel computing in modern Fortran
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Updated
Jan 23, 2021 - Fortran
Tsunami Simulator with parallel computing in modern Fortran
2D Navier-Stokes Equation. Discretized using Finite Differences and solved via the Successive Over-Relaxation (SOR) Method.
2D Diffusion Equation. Discretized using the Finite Volume Method and solved via the Successive Over-Relaxation (SOR) Method.
A modern Fortran enviroment for Fluid Mechanics.
Advanced Finite Difference flow solver with Multiple Resolution and Phase-Field implementations
DNS Compressible Navier-Stokes Equation solver with Finite Difference Schemes spatially and 2nd-order Adams-Bashforth and 3rd-order Range-Kutta temporally
Fortran Environment for Numerics
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.
A molecular dynamics solver for molecular fluid dynamics simulation
A dynamical model to simulate turbulence. Licensed under the MIT License.
A library for dynamical cores of atmosphere and ocean models with discontinuous Galerkin finite element method
2D cavity flow using the SIMPLE Algorithm
Unstructured Finite Volume Solver for Partial Differential Equations
A shallow water model coded on the sphere. Licensed under the MIT license.
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.
Simple (and not-so-simple) CFD solvers written in Fortran with Python plotting routines
Compute Flow Parameters for a Couette-Poiseuille Flow.
A multi-block solver for massively parallel direct numerical simulations (DNS) of fluid flows
Open Source Flow Visualization
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