Litcius/Paper detail

An Open-Source Frequency-Domain Model for Floating Wind Turbine Design Optimization

Matthew Hall, Stein Housner, Daniel Zalkind, Pietro Bortolotti, David Ogden, Garrett Barter

2022Journal of Physics Conference Series36 citationsDOIOpen Access PDF

Abstract

Abstract A new frequency-domain dynamics model has been developed that uses open-source components to efficiently represent a complete floating wind turbine system. The model, called RAFT (Response Amplitudes of Floating Turbines), incorporates quasi-static mooring reactions, strip-theory and potential-flow hydrodynamics, blade-element-momentum aerodynamics, and linear turbine control. The formulation is compatible with a wide variety of support structure configurations and no manual or time-domain preprocessing steps are required, making RAFT very practical in design and optimization workflows. The model is applied to three reference floating wind turbine designs and its predictions are compared with results from time-domain OpenFAST simulations. There is good agreement in mean offsets as well the statistics and spectra of the dynamic response, verifying RAFT’s general suitability for floating wind analysis. Follow-on work will include verification of potential-flow and turbine-control features and application to optimization problems.

Topics & Concepts

TurbineAerodynamicsFrequency domainComputer scienceTime domainWind powerControl theory (sociology)SimulationMarine engineeringEngineeringAerospace engineeringControl (management)Artificial intelligenceComputer visionElectrical engineeringWind Energy Research and DevelopmentWave and Wind Energy SystemsFluid Dynamics and Vibration Analysis