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40 1. Introduction
[20] Piperni, P., "Multi-Block Grid Generation with CAD-Based Domain Decomposition",
Proceedings of the International Conference on Numerical Grid Generation in CFD
and Related Fields", 1994, pp. 109-121.
[21] Federal Aviation Regulations Parts 25, 21 and 29. "Airworthiness Standards: Trans-
portation Category Airplanes, Normal Category Rotorcraft, and Transport Category
Rotorcraft," Appendix C, Washington, D.C. 20591, Department of Transportation
Federal Aviation Admin, 1914.
[22] Reinmann, J.J., "NASA Aircraft Icing Technoloqy Program," NASA Technical Mem-
orandum 104518, Dec 1991.
[23] Cebeci, T. and Besnard, E., "Prediction of the Aerodynamic Performance Degradation
of an Aircraft in Natural Icing Conditions," AIAA Paper No. 94-0487, Jan 1994.
[24] Ruff, G.A. and Berkowitz, B.M., "User's Manual for the NASA Lewis Ice Accretion
Code (LEWICE)," NASA CR-185129, May 1990.
[25] Cebeci, T., Chen, H.H. and Alemdaroglu, N., "Fortified LEWICE with Viscous Ef-
fects," Journal of Aircraft, Vol. 18, No. 9, pp. 564-571, Sept 1991.
[26] Ramando, R.J., Mikelson, K.L., McKnight, R.C., "Performance Degradation of a Typ-
ical Twin Engine Commuter Type Aircraft in Measured Natural Icing Conditions,"
NASA Technical Memorandum 83564, January 1984.
[27] Mikkelson, K.L., McKnight, R.C., Ramando, R.J., Perkins, P.J., "Icing Flight Re-
search: Aerodynamic Effects of Ice and Ice Shape Documentation with Stereo Photog-
raphy," NASA Technical Memorandum 86906, AIAA Paper 85-0468, January 1985.
[28] Mikkelson, K.L., Juhasz, N., Ramando, R.J., McKnight, R.C., Freedman, R., Greish-
ing, J., "In-flight Measurements of Wing Ice Shapes and Wing Section Drag Increase
Caused by Natural Icing Conditions," NASA Technical Memorandum 87301, April
1986.
[29] Hucho, W.F. and Sovran, G., "Aerodynamics of Road Vehicles," Annu. Rev. Fluid
Mech., 1993, Vol. 25, pp. 485-537.
