A Vortex Step Method for Nonlinear Airfoil Polar Data as Implemented in KiteAeroDyn: Preprint

Rick Damiani, Jason Jonkman, Jerome Sicard, Fabian Wendt

Research output: Contribution to conferencePaper

Abstract

This paper summarizes the underlying theory in the recently developed KiteAeroDyn (KiteAD) module, which is part of KiteFAST (KiteFAST), a numerical simulation tool that is currently being developed at the NREL. KiteFAST is intended for the simulation of airborne wind energy systems (e.g., energy kites). KiteAD implements an innovative vortex step method for the calculation of aerodynamic loads on all of the lifting surfaces of the kite, which is capable of accounting for two-dimensional viscous effects through the use of nonlinear airfoil polars. Considering nonlinear airfoil polar data allows for the modeling of flap or other moving-surface deflections, as well as for the modelling of inflow conditions with larger angles angles of attack. From preliminary verification against other existing codes that can solve for lift distribution on lifting surfaces, the results of the newly implemented method proved to be numerically robust and computationally inexpensive, thus ideal for aeroelastic design and analysis applications.
Original languageAmerican English
Number of pages14
StatePublished - 2019
EventAmerican Institute for Aeronautics and Astronautics SciTech Forum 2019 - San Diego, California
Duration: 7 Jan 201911 Jan 2019

Conference

ConferenceAmerican Institute for Aeronautics and Astronautics SciTech Forum 2019
CitySan Diego, California
Period7/01/1911/01/19

Bibliographical note

See NREL/CP-5000-74483 for paper as published in AIAA proceedings

NREL Publication Number

  • NREL/CP-5000-72777

Keywords

  • airfoils
  • FAST
  • modeling
  • simulation
  • wind energy

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