THE EFFECTS OF ANGLE OF ATTACK, REYNOLD NUMBERS AND WINGLET STRUCTURE ON THE PERFORMANCE OF CESSNA 172 SKYHAWK

Henny Pratiwi

Submitted : 2018-02-07, Published : 2018-05-23.

Abstract

This research aims to investigate the effects of angle of attack, Reynold numbers and winglet structure on the performance of Cessna 172 Skyhawk aircraft with winglets variation design. Winglets improve efficiency by diffusing the shed wingtip vortex, which reducing the drag due to lift and improving the wing’s lift over drag ratio. In this research, the specimens are the duplicated of Cesnna 172 Skyhawk wing with 1:40 ratio made of balsa wood. There are three different winglet designs that are compared with the one without winglet. The experiments are conducted in an open wind tunnel to measure the lift and drag force with Reynold numbers of 25,000 and 33,000. It can be concluded that the wings with winglets have higher lift coefficient than wing without winglet for both Reynold numbers. It was also found that all wings with winglets have higher lift-to-drag ratio than wings without winglet where the blended 45o cant angle has the highest value.

Full Text:

PDF

References

Azlin, MA, Mat Taib, CF, Kasolang, S and Muhammad, FH, 2011, CFD Analysis of Winglets at Low Subsonic Flow, WCE, London, pp. 1-3.

Bojja, A, Garre, P, 2013, ‘Analysis on reducing the induced drag using the winglet at the wingtip’, International Journal of Engineering Research & Technology (IJERT), vol. 2, pp. 51-53.

Büscher, A, Radespiel, R, Streit, T, 2006, ‘Modelling and design of wing tip devices at various flight conditions using a databased aerodynamic prediction tool’, Aerospace Science and Technology, vol. 10, pp. 668–678.

Hossain, A, Rahman, A, Iqbal, AKMP, Ariffin, M and Mazian, M, 2011, ‘Drag Analysis of an Aircraft Wing Model with and without Bird Feather like Winglet’, International Journal of Aerospace and Mechanical Engineering, vol. 5, no. 9, pp. 1894 - 1899.

Kroo, I, 2005, ‘Nonplannar wing concept for increased aircraft efficiency, in Innovative Configurations and Advanced Concepts for Future Civil Aircraft’, VKI Lecture Series, von Karman Institute for Fluid Dynamics, Rhode-St-Genese, Belgium.

http://dx.doi.org/10.28989/angkasa.v10i1.206

Article Metrics

Abstract view: 469 times
Download     : 832   times

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.

Refbacks

  • There are currently no refbacks.