Pinned Repositories
10-Node-Tetrahedron-Example
Example of the Tet10 being applied to a Cantilever Beam.
AeroComBAT-Project
Aeroelastic Composite Beam Analysis Tool
Analysis-of-Cantilever-Beams-by-MATLAB
Beam-Calculator
A calculator for beam deflection, stress, and impacts written in Python and using PyQt5.
Beam-Deflection-Visualiser
A school project to calculate beam deflections with multiple loads for cantilever beam and double supported beam
beammech
Python module for studying deflection and stresses in loaded beams.
BEM
Blade Element Method - 46300 Aerodynamics and Wind Turbines
BEMTurbine
Blade element momentum (BEM) tool for optimization and analyses of horizontal axis wind turbines
biplaneblade
create and analyze biplane wind turbine blades with 1D beam finite elements and 2D cross-sectional analysis
BLcode2.0
Simulation of the Beddoes-Leishman model for dynamic stall. Some of the parameters used in the model are changed depending on the airfoil's regime. This version does not rely on MATLAB's libraries of numerical integration.
1zjz's Repositories
1zjz/10-Node-Tetrahedron-Example
Example of the Tet10 being applied to a Cantilever Beam.
1zjz/Analysis-of-Cantilever-Beams-by-MATLAB
1zjz/beammech
Python module for studying deflection and stresses in loaded beams.
1zjz/BEM
Blade Element Method - 46300 Aerodynamics and Wind Turbines
1zjz/BEMTurbine
Blade element momentum (BEM) tool for optimization and analyses of horizontal axis wind turbines
1zjz/BLcode2.0
Simulation of the Beddoes-Leishman model for dynamic stall. Some of the parameters used in the model are changed depending on the airfoil's regime. This version does not rely on MATLAB's libraries of numerical integration.
1zjz/Cantilever-beam-FEM
A finite element method analysis of a cantilever beam
1zjz/cantiliver-beam-deflection
To calculate the deflection at any point of cantilever beam (assuming euler-bernaulli beam theory), castigliano's theorem has been used/
1zjz/Euler-Bernoulli-Beam
Python tools for the finite element model of the Euler-Bernoulli beam.
1zjz/Ex._Aeroelasticity_Unsteady_BEM
Academical assignment for Wind Turbine Aeroelasticity course
1zjz/Harpy
Open-source Tool for Aeroelastic Simulations of Horizontal Wind Turbines
1zjz/idealbladeshape
Using python with matplotlib and blade element theory, created a model of a wind turbine blade with ideal chord lengths and blade angles.
1zjz/IndeterminateBeam
A solver for 1D indeterminate beams
1zjz/LAC_RotorDesign
codes Loads, Aerodynamics and Control
1zjz/Lifting-Line-Model
1zjz/liftinglineopt
Lifting line computations, wrapped into an optimizer
1zjz/MATLAB_Aeroelasticity
Projects for Aeroelasticty MATLAB codes.
1zjz/Miller-Blade-Struct
Miller lab structural code for turbine blades.
1zjz/NuMAD
Numerical Manufacturing And Design Tool (NuMAD) -- A design tool for wind and water turbine composite blades
1zjz/OptHAWT
An optimization suite for Horizontal Axis Wind Turbines using XFoil, Blade Element Theory and Particle Swarm Optimization.
1zjz/pyloads
Python package for loads calculation using the DTU 10 MW wind turbine based on Blade Element Momentum theory.
1zjz/python-turbine-blade-designer
Python project to design wind turbine blade geometry, based on the blade element method. This is a re-written and enhanced version of the old MATLAB project (nicola-sorace/turbine_blade_designer).
1zjz/RWA
Repository for the Q3-Q4 2021 assignments of the course Rotor Wake Aerodynamics (AE4135) at TU Delft.
1zjz/sharpy
Simulation of High Aspect Ratio aeroplanes and wind turbines in Python: a nonlinear aeroelastic code
1zjz/UT-Aeroelasticity-Research-Group
Database for sharing code useful for research-related efforts within the aeroelasticity research group at the University of Texas at Austin
1zjz/welib
Wind energy library, python and matlab tools for wind turbines analyses
1zjz/wind-turbine-aeroelasticity-assignments
Assignments from the DTU course "Projects in Wind Turbine Aeroelasticity"
1zjz/WT_Aeroelasticity
1zjz/wt_aeroelasticity-1
1zjz/WTA
Repository for the Q4 2021 assignments of the course Wind Turbine Aeroelasticity (AE4W21-14) at TU Delft.