This content is not included in your SAE MOBILUS subscription, or you are not logged in.

Frostwing Co-Operation in Aircraft Icing Research

Journal Article
2019-01-1973
ISSN: 2641-9637, e-ISSN: 2641-9645
Published June 10, 2019 by SAE International in United States
Frostwing Co-Operation in Aircraft Icing Research
Sector:
Citation: Koivisto, P., Soinne, E., Broeren, A., and Bond, T., "Frostwing Co-Operation in Aircraft Icing Research," SAE Int. J. Adv. & Curr. Prac. in Mobility 2(1):115-127, 2020, https://doi.org/10.4271/2019-01-1973.
Language: English

References

  1. Terms of Reference for rulemaking task RMT.0118 2017 6
  2. Koivisto , P. 2015
  3. Ljungström , B.L.G. 1972
  4. Kind , R.J. and Lawrysyn , M.A. Aerodynamic Characteristics of Hoar Frost Roughness AIAA Journal 30 7 1992
  5. Bragg , M.B. , Heinrich , D.C. , Valarezo , W.O. , and McGhee , R.J. Effect of Underwing Frost on a Transport Aircraft Airfoil at Flight Reynolds Number Journal of Aircraft 31 6 1372 1379 1994
  6. Khodadoust , A. , Dominik , C. , Shin , J. , and Miller , D. Effect of in-Flight Ice Accretion on the Performance of a Multi-Element Airfoil AHS/SAE international Icing Symposium 1995 10
  7. Valarezo , W.O. , Lynch , F.T. , and McGhee , R.J. Aerodynamic Performance Effects Due to Small Leading-Edge Ice (Roughness) on Wings and Tails Journal of Aircraft 30 6 807 812 1993
  8. Boer , J.N. and van Hengst , J. Aerodynamic Degradation Due to Distributed Roughness on High Lift Configuration AIAA Paper 93-0028 1993 9
  9. Koivisto , P. 2015 24
  10. Koivisto , P. 2016 11
  11. Lacy , D.S. and Sclafani , A.J. Development of the High Lift Common Research Model (HL-CRM): A Representative High Lift Configuration for Transonic Transports 54th AIAA Aerospace Sciences Meeting San Diego, California, USA 4-8 January 2016
  12. Wild , J. Experimental Investigation of Mach- and Reynolds-Number Dependencies of the Stall Behavior of 2-Element and 3- Element High-Lift Wing Sections AIAA 2012-0108, 50th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition Nashville, Tennessee 09-12 January 2012
  13. Code of Federal Regulations 2017
  14. 2012 148
  15. Koivisto , P. , Soinne , E. , and Kivekäs , J. Anti-Icing Fluid Secondary Wave and Its Role in Lift Loss Journal of Aircraft 2018 9
  16. Soinne , E. and Rosnell , T. Aerodynamic, Laser Scanning and Photogrammetric Measurements on Cold Soaked Fuel Frost AIAA Paper 2018-3830 2018 12
  17. Lee , S. , Broeren , A.P. , Kreeger , R.E. , Potapczuk , M.G. et al. Implementation and Validation of 3-D Ice Accretion Measurement Methodology AIAA Paper 2014-2613 2014
  18. Broeren , A.P. , Addy , H.E. Jr. , Lee , S. , Monastero , M.C. et al. Three-Dimensional Ice-Accretion Measurement Methodolgy for Experimental Aerodynamic Simulation Journal of Aircraft 55 2 2018
  19. McClain , S.T. , Vargas , M. , Tsao , J.-C. , and Broeren , A.P. Ice Roughness and Thickness Evolution on a Business Jet Airfoil AIAA Paper 2018-3014 2018
  20. 2013
  21. Hill , E.G. and Zierten , T.A. Aerodynamic Effects of Aircraft Ground Deicing/Anti-Icing Fluids Journal of Aircraft 30 1 24 34 1993
  22. Broeren , A.P. and Riley , J.T. 2012 34
  23. Koivisto P. Effects of Anti-Icing Treatment on Lift Degradation during Simulated Take-Off Finnish Transport Safety Agency Helsinki, Finland 2013 22
  24. SAE International 2007
  25. Runyan , L.J. , Zierten , T.A. , Hill , E.G. , and Addy , H.E. 1992
  26. Koivisto , P. Anti-Icing Fluid Flow off on a Wing Section during Simulated Taxi and Take-Off AIAA 2013-2932, 5th atmospheric and Environments Conference San Diego CA June 24-27, 2013
  27. Lynch , F.T. and Khodadoust , A. Effects of Ice Accretionon Aircraft Aerodynamics Progress in Aerospace Sciences 37 669 767 2001
  28. Brumby , R.E.

Cited By