he-pan's Stars
jlblancoc/nanoflann
nanoflann: a C++11 header-only library for Nearest Neighbor (NN) search with KD-trees
jgerstmayr/EXUDYN
Multibody Dynamics Simulation: Rigid and flexible multibody systems
xcompact3d/Incompact3d
Current CPU version of our solver for the Navier-Stokes equations
ImperialCollegeLondon/sharpy
Simulation of High Aspect Ratio aeroplanes and wind turbines in Python: a nonlinear aeroelastic code
byuflowlab/GXBeam.jl
Pure Julia Implementation of Geometrically Exact Beam Theory
AMReX-Fluids/IAMR
A parallel, adaptive mesh refinement (AMR) code that solves the variable-density incompressible Navier-Stokes equations.
jsitaraman/tioga
Tioga is a library for overset grid assembly on parallel distributed systems
yang7857854/F2A
F2A is an aero-hydro-servo-elastic tool developed based on AQWA by Yang Yang, a postdoctoral research associate in Liverpool John Moores University for performing fully coupled analysis of floating offshore wind turbines (FOWT). The aero-servo-elastic simulation capabilities are fully implemented within the user_force64.dll which is a built-in DLL of AQWA for external force calculation. For a coupled analysis of a floating offshore wind turbine subjected to wind, wave and current loadings, the aerodynamic loads acting on the rotor, the elastic responses of the blades and tower, and the servo-control are examined through the DLL, considering the influence from the platform motions. The platform position, velocity and acceleration at each degree of freedom are passed into the DLL to update the kinematics of the upper structures. Before being passed into DLL, these terms are transformed from the inertial coordinate system to the local coordinate system of the platform.
hheinzer/ccfd
A 2D finite volume CFD code, written in C
rserban/ANCF_beam
Matlab simulation of a flexible beam modeled with gradient-deficient ANCF beam elements
Yeuyo/GNLSFEA
Geometrically-Nonlinear Shell Finite Element Analysis
nnmrec/Co-Blade
Software for Analysis and Design of Composite Rotors
sandialabs/CACTUS
CACTUS (Code for Axial and Cross-flow TUrbine Simulation) is a turbine performance simulation code, based on a free wake vortex method, to study wind turbines and marine hydrokinetic (MHK) devices.
mid2SUPAERO/GEBTAero
High-aspect-ratio composite wing nonlinear aeroelastic toolbox
AMReX-Codes/ATPESC-codes
Example codes for ATPESC
gnotomista/fem
Finite element method for linear and nonlinear beams and plates
WISDEM/pBEAM
A finite element method for beam-like structures.
gabscarlett/Tidal-turbine-hydrodynamic-model
Model to analyse the unsteady loads, moments and power for a tidal turbine. Couples blade-element momentum, dynamic stall and rotational augmentation.
wenbinyugroup/ivabs
iVABS is a VABS-based design framework for composite beams including helicopter rotor blades, wind turbine blades, high aspect ratio wings, etc.
FR13ndSDP/ebamr
old-NWTC/MBC
A MATLAB®-based postprocessor for Multi-Blade Coordinate transformation of wind turbine state-space models
old-NWTC/BModes
jantomec/BEAM-App
3D nonlinear beam FEA
RJSSimpson/SHARPy
Simulation of High-Aspect-Ratio Planes in Python
caseyberger/nrrb
Complex Langevin code to compute properties of nonrelativistic, harmonically trapped, rotating, and interacting bosons.
MheZa/ALFBM
the beginning
ashwathsv/LRFPFCT
byuflowlab/gaussian-wake
A simple horizontal-axis wake model based on a Gaussian distribution
ermost/CSCS_Hackathon
seanytsunami/Miller-Blade-Struct
Miller lab structural code for turbine blades.