There are 11 repositories under fluid-mechanics topic.
Classical Aerodynamics of potential flow using Python and Jupyter Notebooks
C++ openFrameworks addon for solving and drawing 2D fluid systems based on Navier-Stokes equations and Jos Stam's paper "Real-Time Fluid Dynamics for Games"
A pytorch implementaion of physics informed neural networks for two dimensional NS equation
😎 🌌 Collection of the most awesome Physics learning resources in the form of notes, videos and cheatsheets.
CFDTool - An easy to use OpenFOAM / SU2 / CFD simulation toolbox
Repository from the paper https://arxiv.org/abs/1908.04127, to train Deep Reinforcement Learning in Fluid Mechanics Setup.
Implementation of the 12 steps approach to the Navier-Stokes equations, essential for simulating fluid dynamics.
Resources about Machine Learning for solving PDEs.
Chemical engineering calculations as Jupyter notebook
Pychastic is a stochastic differential equations integrator written entirely in python.
Some .tns file for Ti nspire CX CAS about Fluid Mechanics, Theory of Construction and Computational structural mechanics
velocity vector evaluation for bubble image
2D LBM channel flow simulation with particle interaction.
FORTRAN codes for different fluid-flow and heat transfer problems using classical LBM
It's a fluid simulation
Modeling two-phase flow and transport in porous media using MATLAB.
A Mathematica package for Lagrangian analysis of fluid flows.
Arduino program for pump controller to produce pulsatile flow rate using PID controller. In vitro fluid mechanical experimental studies.
2D simulation of cavity flow with moving up-wall using MATLAB and Python.
A toolbox for internal fluid flow for GNU Octave
Supplementary material for the paper on benchmarking rigid body motion in fluids with feelpp
Very simple (not optimized) GPU-based SPH (fluid mechanics) solver developed to test new models.
Numerical solution to the incompressible Navier-Stokes Equations using the Fractional Step Method. Application to solve the 2D Driven-Cavity problem.
Computational Fluid Dynamics Framework Based on the Immersed Boundary Method (IBM) and PETSc