A digital twin model for wind turbine. Contains a set of structrual dynamics tools, beam theory, FEM and more.
This wind turbine digital twin software (wtDigiTwin) provides a digital twin solution for wind turbine applications. The focus of wtDigiTwin is to estimate loads, motions and environmental conditions for an operating wind turbine. The program uses supervisory control and data acquisition (SCADA) measurements as inputs, together with a wind turbine model.
The wind industry is currently challenged by the high cost of operation and maintenance. These costs could be mitigated if component failures are predicted, but such predictions are difficult unless the turbines are equipped with expensive measuring devices. The alternative is to use a digital twin such as wtDigiTwin to estimate the necessary signals.
wtDigiTwin can perform online prediction of signals that are otherwise not measured, using a limited set of reliable measurements and a physics-based model. The predicted signals can be used in applications that have direct cost benefits: 1) real-time estimation of the fatigue consumption of key components of the wind turbine; 2) root cause analyses and failure detections ; 3) lifetime reassessments ; 4) improvements to follow-on designs.
The current version provides examples to estimate wind speed, thrust, torque, tower-top position, and tower loads on an onshore wind turbine using the following measurements tower top acceleration, generator torque, pitch, and rotational speed. The model combines a linear state-space model, a wind speed estimator, and a Kalman filter algorithm that integrates measurements with the state model to perform state estimations. The state space model is obtained either using OpenFAST linearizations, or using the yams package provided with the software.
Download, install dependencies and package:
git clone https://github.com/ebranlard/wtDigiTwin
cd wtDigiTwin
python -m pip install --user -r requirements.txt
python -m pip install -e . # install
python -m unittest discover -v # run test
Simple working examples are provided in the example directory.
The repository contains a set of small packages:
Some of the packages have dependency with the weio library to read and write files.
The core of the model for onshore application is given in the following article:
Applications using OpenFAST linearization were presented in the following work:
The structural model referred to as YAMS was described in the following:
_doc
folder of this repository.