Computational Fluid Dynamics, Waves, Reactions, Plasmas

Python functions for Quasi-1D Gasdynamics

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

Robust solver for the compressible Blasius equations for laminar, high-speed flow, boundary layers over a flat plate.

A python repository for compressible aerodynamics

Solves the 2D compressible Navier-Stokes equations using finite-difference with a staggered grid arrangement to simulate acoustic waves.

United collection of hybrid Central solvers - one-phase, two-phase and multicomponent versions

Density-based compressible transient solver using the flux difference splitting scheme of Bui, with shock sensor-based upwinding. Primarily designed for compressible LES.

A SageMath library for jump expansions and Jacobian matrices of conservation laws and stability analysis

Code for second order semidiscrete central upwind schemes.

Aynı Ailden 2 Şok Dalgasının Kesişmesi Sonucu Oluşacak Akışın Genel Özelliklerini Hesaplamaktadır.

A compressible flow calculator written in Python.

Compressible Falkner-Skan-Cooke equation solver

Minimal estimator of ideal (isentropic) rocket nozzle performance: exit state (Me, Pe, Te), CF, Isp, F/At, with Pc–area-ratio sweeps. Pure Python, small tests, CSV output for quick trade studies. Requires Python 3.10+.

Compressible potential flow solver

Modeling performance of GE's F404-GE-402 engine in pyCycle

SymPy-based lab for quasi-1D nozzle gasdynamics: symbolic isentropic relations, numerical profiles, and engineering plots.

A compact Finite Volume Method solver for 2D Euler equations (internal channel flow). Demonstrates numerical methods, scientific programming and shock capturing.

It calculates the general properties of the flow that will occur as a result of the intersection of two shock waves from the same family.

SymPy-based lab for 1D vertical rocket mechanics: symbolic equations of motion, Tsiolkovsky Δv, and simple numeric experiments.