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Kite performance testing by flying in a circle

Published online by Cambridge University Press:  03 February 2016

J. Stevenson
Affiliation:
Syft Ltd, Christchurch, New Zealand
K. Alexander
Affiliation:
University of Canterbury, Christchurch, New Zealand
P. Lynn
Affiliation:
Peter Lynn Kites, Ashburton, New Zealand

Abstract

With the advent of recreational sports like kite surfing and buggying, the performance of kites has become a market driven item. Producers increasingly require methods to measure and improve the performance of the kites they manufacture. The Mechanical Engineering Department at the University of Canterbury has been working with a local kite producer to develop testing procedures suitable for kite manufacturers. The primary performance measurement is the lift to drag ratio. An early test rig was mounted in the top of a car, but limitations inherent in the design meant that it lost precision as the lift to drag ratio approached that of more advanced kites. This led the investigators to look for alternatives, and resulted in the development of the circular flight method. This method allows the test apparatus to be tuned to the performance of each kite, significantly improving the precision of the results while reducing the time taken for each test. In their raw form, the L/D results are not quite the same as those of the more traditional methods. But they reflect the underlying aerodynamic characteristics, and when used comparatively they can be used in the kite development process. Alternatively, with suitable processing the circular flight results can be converted to the traditional forms.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 2005 

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References

1. Marchaj, C.A., Aero-hydrodynamics of Sailing, Dodd, Mead and Company, 1979, NY.Google Scholar
2. Geola, J.S., Somu, N., Abedinzadeh, R. and Vijaykumar, R.. Wind loading effects on a caternary, J Wind Eng and Ind Aerodynamics, 1985, 21, pp 235249.Google Scholar
3. Stevenson, J.C.. Traction Kite Testing and Aerodynamics, 2003, University of Canterbury. (Thesis:PhD), 2003.Google Scholar
4. Alexander, K.V. & Stevenson, J.A. Test rig for kite performance measurement. Proc Instn Mech Engrs, v215, Part B, 2001, pp 595598.Google Scholar
5. Nicolaides, J.D. and Tragartz, M.A.. Parafoil flight performance. Technical report, June 1971, AFFDL-TR_71–38, AD 731 143.Google Scholar