Relevant publications about HAWCStab2 or where HAWCStab2 is employed are:

  • Hansen, M. H. (2011), Aeroelastic Properties of Backward Swept Blades. In 49th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition. Orlando, FL. doi: 10.2514/6.2011-260.
  • Hansen, M. H. (2004), Aeroelastic stability analysis of wind turbines using an eigenvalue approach. Wind Energy, 7: 133–143. doi: 10.1002/we.116.
  • Hansen, M. H. (2003), Improved Modal Dynamics of Wind Turbines to Avoid Stall-induced Vibrations. Wind Energy, 6: 179–195. doi: 10.1002/we.79.
  • Sønderby, I. and Hansen, M. H. (2014), Open-loop frequency response analysis of a wind turbine using a high-order linear aeroelastic model. Wind Energ., 17: 1147–1167. doi: 10.1002/we.1624.
  • Adegas, F.D., Sønderby I., Hansen M. H., and Stoustrup J. (2013), Reduced-Order LPV Model of Flexible Wind Turbines from High Fidelity Aeroelastic Codes. In 2013 IEEE International Conference on Control Applications (CCA), 424–29. doi: 10.1109/CCA.2013.6662786.
  • Tibaldi, C., Henriksen L.C., Hansen M. H., and Bak C. (2014), Effects of Gain-Scheduling Methods in a Classical Wind Turbine Controller on Wind Turbine Aero-Servo-Elastic Modes and Loads. In 32nd ASME Wind Energy Symposium. National Harbor (MD): American Institute of Aeronautics and Astronautics. doi: 10.2514/6.2014-0873.
  • Tibaldi, C.Henriksen, L. C.Hansen, M. H., and Bak, C. (2015), Wind turbine fatigue damage evaluation based on a linear model and a spectral methodWind Energy, doi: 10.1002/we.1898.
  • Tibaldi, C.Kim, T.Larsen, T. J.Rasmussen, F.Rocca Serra, R. d., and Sanz, F. (2015), An investigation on wind turbine resonant vibrationsWind Energy, doi: 10.1002/we.1869.

  • Verelst, D. R., Hansen M. H. and Pirrung, G. (2016) Steady State Comparisons HAWC2 v12.2 vs HAWCStab2 v2.12, DTU Wind Energy E-report, pdf version.