Aerodynamic Performance of the NREL S826 Airfoil in Icing Conditions

@inproceedings{Krgenes2017AerodynamicPO,
  title={Aerodynamic Performance of the NREL S826 Airfoil in Icing Conditions},
  author={Julie Kr{\o}genes and Lovisa Brandrud and Richard M. Hann and Jan Michael Simon Bartl and Tania Bracchi and Lars S{\ae}tran},
  year={2017}
}
Abstract. The demand for wind power is rapidly increasing, creating opportunities for wind farm installations in more challenging climates. Cold climate areas, where ice accretion can be an issue, are often sparsely populated and have high wind energy potential. Icing may lead to severely reduced aerodynamic performance and thereby reduced power output. To reach a greater understanding of how icing affects the aerodynamics of a wind turbine blade, three representative icing cases; rime ice… CONTINUE READING

Figures and Tables from this paper.

Citations

Publications citing this paper.
SHOWING 1-3 OF 3 CITATIONS

Impact of atmospheric icing on UAV aerodynamic performance

  • 2017 Workshop on Research, Education and Development of Unmanned Aerial Systems (RED-UAS)
  • 2017
VIEW 3 EXCERPTS
CITES METHODS & BACKGROUND
HIGHLY INFLUENCED

Aerodynamic modeling of the Skywalker X8 Fixed-Wing Unmanned Aerial Vehicle

  • 2018 International Conference on Unmanned Aircraft Systems (ICUAS)
  • 2018

References

Publications referenced by this paper.
SHOWING 1-10 OF 12 REFERENCES

Effects of Simulated-Spanwise-Ice Shapes on Airfoils: Experimental Investigation

M. B. Bragg
  • 2005

Global Wind Energy Council: http://www.gwec.net/global-figures/market-%20forecast-2012-2016

W. G. Habashi, M. Aube, G. Baruzzi, F. Morency, P. Tran
  • Wind Energy and Remote Regions Conference, Magdalen islands,
  • 2005

Power reduction from ice accretion on a horizontal axis wind turbine, 12th British Wind Energy Association, Wind Energy Conference Norwich

N. Bose, J. Q. Rong
  • Progress in Aerospace Sciences,
  • 2005