antarnetra's Projects
A 2D panel code based upon lumped vortices
Classical Aerodynamics of potential flow using Python and Jupyter Notebooks
Student projects for the Spring 2015 MAE 6226 class at GW
Config files for my GitHub profile.
Astrodynamics with Python book, software, and videos. Spacecraft trajectory and attitude modeling and simulation
BEM model for AE4135
Blade Element Momentum Theory: developed during my Bachelor Thesis in Aerospace Engineering
Blade Element Momentum Method for Propellers and Turbines
A sequence of Jupyter notebooks featuring the "12 Steps to Navier-Stokes" http://lorenabarba.com/
A step-by-step introduction to treecode.
Repository for wind turbine design using HAWC2S, HAWCStab2 and HAWC2. Based on the Loads, Aerodynamics and Control course at DTU.
codes Loads, Aerodynamics and Control
Propeller design tool. Minimum Induced Loss propellers: Larrabee's method
Lifting line model for AE4135
Source code for the book, Math for Programmers
Multigrid Tutorial (based on W.L. Briggs, V.E. Henson and S.F. McCormick, A Multigrid Tutorial, 2nd. ed., SIAM, Philadelphia, 2000)
ๅคๆ็ฟผๆฐๅจๅๆ๏ผ่ฎพ่ฎก๏ผไปฃ็ [Aerodynamic analysis codes for multi-rotors of helicopter/rotor-craft]
Two dimensional panel method
A Python package to help teach and learn the math of 3D rotation.
3D transformations for Python
QBlade project
Design codes for rotor of rotorcraft
Repository for the Q3-Q4 2021 assignments of the course Rotor Wake Aerodynamics (AE4135) at TU Delft.
Python script that sweeps Star-CCM+ Design Manager log files for rich data analysis and visualization.
CFD course that I teach in the Chemical Engineering Department at the University of Utah - CHEN6355.
A Comprehensive Julia implementation of the Vortex Lattice Method
Repository for the Q4 2021 assignments of the course Wind Turbine Aeroelasticity (AE4W21-14) at TU Delft.
Python script to quickly extract Re vs. AoA, Cl, and Cd for any given airfoil geometry using XFoil. Made for Blade Element Momentum CFD applications.