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Volume 34 Issue 05
May  2008
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Journal of Beijing University of Aeronautics and Astronautics  > 2008  >  34(05): 592-595.
Wang Mingfeng, Wang Lixin, Huang Chengtaoet al. Computational effects of ice accretion on aircraft longitudinal stability and control[J]. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(05): 592-595. (in Chinese)
Citation: Wang Mingfeng, Wang Lixin, Huang Chengtaoet al. Computational effects of ice accretion on aircraft longitudinal stability and control[J]. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(05): 592-595. (in Chinese)
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Computational effects of ice accretion on aircraft longitudinal stability and control

  • School of Aeronautic Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

  • Received Date: 09 May 2007
  • Publish Date: 31 May 2008
    Abstract
  • A computational method was developed to predict the effects of airframe icing on aircraft flight dynamic characteristics according to atmospheric conditions, aircraft characteristics and flight conditions. Ice accretion scaling was performed by means of heat-transfer balance analysis, and aerodynamic model of iced aircraft was built by means of stepwise linear regression, the aerodynamic parameters due to ice accretion were computed by this model. The agreement of the computation results with the flight data indicates this method could be used to estimate the aerodynamic parameters at the analyses of longitudinal stability and handling quality. The penalties of aircraft longitudinal stability and control due to ice accretion on different region were investigated using this method. The results of computation demonstrate that the severe degradation of aircraft aerodynamic performance due to ice accretion may affect longitudinal stability and handling quality significantly, and endanger the flight safety.

     

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  • [1] Pokhariyal D, Bragg M B, Hutchison T, et al. Aircraft flight dynamics with simulated ice accretion . AIAA-2001-0541, 2001  [2] FAA Technical Center. Aircraft icing handbook . DOT/FAA/CT-88/8-1, 1991 [3] Ratvasky T P, Ranaudo R J. Icing effects on aircraft stability and control determined from flight data . AIAA-93-0398, 1993 [4] Anderson D N, Jen-Ching Tsao. Evaluation and validation of the messinger freezing fraction . AIAA-2003-1218, 2003 [5] Anderson D N, Alejandro Feo. Ice-accretion scaling using water-film thickness parameters . AIAA-2002-0522, 2002 [6] Bragg M B, Hutchison T, Merret J, et al. Effect of ice accretion on aircraft flight dynamics . AIAA-2000-0360, 2000 [7] Merret J M, Hossain K N, Bragg M B. Envelope protection and atmospheric disturbances in icing encounters . AIAA-2002-0814, 2002 [8] Ruff, Gary A. Analysis and verification of the icing scaling equations . AEDC-TR-85-30, 1986 [9] Phillips W F. Mechanics of flight[M]. Hoboken, NJ:Wiley, 2004: 833-865
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