Proposed Modification to Increase Main Swept Back Wing Efficiency for Aircraft Aermacchi Siai S211

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Naseer Abdul Razzaq Mousa

Abstract

A winglet is devices attached at the wing tips, used to improve aircraft wing efficiency by reduction influence wing tips vortices and induct drag, increasing lift force at the wing tips and effective aspect ratio without adding greatly to the structural stress and weight in the wing structure. This paper is presented three-dimensional numerical analysis to proposed modification swept back wing by adding Raked winglets devices at the main wing tips belong the two seat trainer aircraft type Aermacchi Siai S211 by using Fluent ANSYS 13 software. CFD numerical analysis process was performed at the same flight boundary conditions indifferent wing angle of attacks with constant air flow velocity V∞ =50 (m/sec), ambient pressure Po=101325 (Pa), ambient temperature To=288.14 (K), and at air density ρo=1.225 (kg\m3) to both proposed wing model and the main aircraft wing model. The results are shown an improvement in aerodynamic parameters including increment lift coefficient to (0.22%-5.95%), reduction drag coefficient to (0.34% - 3.60%), increment wing load efficiency ratio to (2.62% - 7.30%), reduction induct drag coefficient CDi to (7.65% - 13.11%) compared with the main aircraft wing model and achieved an improvement in aircraft flight maneuver abilities and stability controls especially during descent, approach, landing and takeoff with lower speed with shortage runway.

Article Details

How to Cite
“Proposed Modification to Increase Main Swept Back Wing Efficiency for Aircraft Aermacchi Siai S211” (2014) Journal of Engineering, 20(10), pp. 60–78. doi:10.31026/j.eng.2014.10.05.
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Articles

How to Cite

“Proposed Modification to Increase Main Swept Back Wing Efficiency for Aircraft Aermacchi Siai S211” (2014) Journal of Engineering, 20(10), pp. 60–78. doi:10.31026/j.eng.2014.10.05.

Publication Dates

References

 Abbott, I. H., and von Doenhoff, A. E, 1959, Theory of Wing Sections, Dover, New York, 1959.

 Cosin, R. , Catalano, F.M. , Correa, L.G.N. , Entz, R.M.U. 2010, Aerodynamic Analysis of Multi-Winglets for Low Speed Aircraft, 27th International Congress of the Aeronautical Sciences.

 Mohammad Ilias Inam, Mohammad Mashud, Abdullah-Al-Nahian, S. M. S. Selim, 2010, Induced Drag Reduction for Modern Aircraft without Increasing the Span of the Wing by Using Winglet, International Journal of Mechanical & Mechatronics. IJMME-IJENS Vol: 10 No: 03,2010

 M. A Azlin, C.F Mat Taib, S. Kasolang and F.H Muhammad, 2011, CFD Analysis of Winglets at Low Subsonic Flow, Proceedings of the World Congress on Engineering 2011 Vol I WCE 2011, July 6 - 8, 2011, London, U.K.

 M. J. Smith•, N. Komerath, R. Ames, O. Wong, 2001, Performance Analysis of a Wing with Multiple Winglets, AIAA-2001-2407.

 Altab Hossain, Ataur Rahman, A.K.M. P. Iqbal, M. Ariffin, and M. Mazian, 2012, Drag Analysis of an Aircraft Wing Model with and without Bird Feather like Winglet, International Journal of Aerospace and Mechanical Engineering 6:1 2012.

 Thomas.F., 1999, Fundamentals of Sailplane Design, Translated by Judah Milgram, College Park Press, MD.

 Faye, R.; Laprete, R.; Winter, M. 2007, Aero, No. 17., Boeing. Assessment of Wingtip Modifications to Increase the Fuel Efficiency of Air Force Aircraft, National Academies Press, p.33

 D. Anderson, Jr. 2005, Fundamentals of Aerodynamics, Fourth Edition.

 FAA,2012, Air - 320 Airworthiness Certification Branch Federal Aviation Administration, Washington DC, September 28, 2012

 Mohammad Sadraey,2013, Chapter 5 Wing Design, Daniel Webster College, July 27, 2013

 Fluent, Inc. 2005, Fluent 6.2, User’s Guide.

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