Numerical Study in Wing Tip Vortex for a Modified Commercial Boeing Aircraft

Recent studies have shown that the use of winglets in aircrafts wing tips have been able to reduce fuel consumption by reducing the lift-induced drag caused by wing tip vortex. This paper presents a 3-D numerical study to analyze the drag and lift forces, and the behavior of the vortexes generated in the wing tips from a modified commercial Boeing aircraft 767-300/ER. This type of aircraft does not contain winglets to control the wing tip vortex, therefore, the aerodynamic effects were analyzed adding two models of winglets to the wing tip. The first one is the vortex diffuser winglet and the second one is the tip fence winglet. The analyses were made for steady state and compressible flow, for a constant Mach number. The results show that the vortex diffuser winglet gives the best results, reducing the core velocity of the wing tip vortex up to 19%, the total drag force of the aircraft up to 3.6% and it leads to a lift increase of up to 2.4% with respect to the original aircraft without winglets.

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Experimental studies of viscous regions near streamlined wing tips

The Aeronautical Journal ◽

10.1017/s0001924000050648 ◽

1987 ◽

Vol 91 (910) ◽

pp. 470

Author(s):

H. P. Horton ◽

X. M. Xenophontos

Keyword(s):

Practical Importance ◽

Experimental Studies ◽

Vortex Sheet ◽

Tip Vortex ◽

Tip Vortices ◽

Induced Drag ◽

Wing Tips ◽

Wing Tip ◽

Complex Manner ◽

Made In

Wing-tip vortices are of considerable practical importance, primarily because of the associated induced drag. A number of investigations have been made in the past into the development of vortices trailing behind wings, but little attention has been given to the mechanism of generation of such vortices. In the region of a wing-tip the boundary layers, which are usually turbulent at full-scale, separate from the wing surface in a rather complex manner to form a vortex sheet which rolls up into the tip vortex. Although the gross effects of the tip vortex can be predicted by inviscid theory, a detailed understanding of the behaviour of the viscous layers around wing-tips could lead to better optimisation of their design.

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An analysis on Aerodynamics Performance Simulation of NACA 23018 Airfoil Wings on Cant Angles

Journal of Energy Mechanical Material and Manufacturing Engineering ◽

10.22219/jemmme.v2i1.4905 ◽

2017 ◽

Vol 2 (1) ◽

pp. 31

Author(s):

Setyo Hariyadi

Keyword(s):

Numerical Study ◽

Angle Of Attack ◽

Performance Simulation ◽

Freestream Velocity ◽

Total Drag ◽

Aerodynamic Efficiency ◽

Aircraft Wings ◽

Induced Drag ◽

Wing Tip ◽

Commercial Aircrafts

Winglet attached on the tip of aircraft wings to increase lift. Mainly, winglet used for increasing aerodynamic efficiency, it decreases induced drag caused by vortex on wings tip. The phenomenon of vortex is collision of high-pressured air below the wings meet the low-pressured air above it that cause turbulence. Induced drag may reach 40% of total drag during cruising, and 80-90% while take off. A procedure to decrease induced drag is using wing tip devices. It used on commercial aircrafts and the most frequently used is blended winglet. Numerical study conducted to examine the best aerodynamic performance of sub-sonic plane wings in angles of attack. Analysis on NACA 23018 airfoil wings with blended winglet on the tip was conducted. Freestream velocity of 40 m/s or Re = 1 × 106, and angle of attack (α) 0o, 5o, 10o, and 15o are used. Evaluation for parameter includes coefficient pressure (Cp), velocity profile, lift, drag, and ratio CL/CD. Obtained contour are pressure contour, velocity, and vorticity. In view of all this, there is increasing performance of aerodynamic with CL/CD ratio of wings with blended winglet and plain wing. Reaching current angle of attack, the function of winglet is gradually decrease.

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Numerical Study of a Wing-Tip Vortex Using the Euler Equations

Journal of Aircraft ◽

10.2514/2.2756 ◽

2001 ◽

Vol 38 (1) ◽

pp. 22-27 ◽

Cited By ~ 8

Author(s):

Robert E. Spall

Keyword(s):

Euler Equations ◽

Numerical Study ◽

Tip Vortex ◽

Wing Tip Vortex ◽

Wing Tip

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Induced Drag Savings From Ground Effect and Formation Flight in Brown Pelicans

Journal of Experimental Biology ◽

10.1242/jeb.135.1.431 ◽

1988 ◽

Vol 135 (1) ◽

pp. 431-444 ◽

Cited By ~ 2

Author(s):

F. REED HAINSWORTH

Keyword(s):

Ground Effect ◽

Formation Flight ◽

Tip Vortex ◽

Wing Beat ◽

Vertical Variation ◽

Induced Drag ◽

Brown Pelicans ◽

Vertical Displacements ◽

Wing Tips ◽

Wing Tip

Ciné films of brown pelicans flying in formation were used to measure altitudes and wing tip spacing (WTS, distance perpendicular to the flight path between wing tips of adjacent birds at maximum span) for birds flying in ground effect, and vertical displacements and WTS for birds flying out of ground effect. Views were near coplanar with the plane of flight paths, and maximum wing span was used for scale. Induced drag savings in ground effect averaged 49% for gliding. Average WTS varied considerably with no evidence for systematic positioning near an optimum. There were also no differences in average WTS between flapping and gliding in or out of ground effect. Vertical displacements out of ground effect varied less than WTS but more than vertical displacements in ground effect. Few birds had wing beat frequencies similar to the bird ahead as would be needed to track vertical variation in trailing wing tip vortex positions. Imprecision in WTS may be due to unpredictable flow fields in ground effect, and difficulty in maintaining position under windy conditions out of ground effect.

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Experimental examination of vorticity stripping from a wing-tip vortex in free-stream turbulence

Physical Review Fluids ◽

10.1103/physrevfluids.3.034702 ◽

2018 ◽

Vol 3 (3) ◽

Cited By ~ 1

Author(s):

Hari C. Ghimire ◽

Sean C. C. Bailey

Keyword(s):

Free Stream ◽

Tip Vortex ◽

Experimental Examination ◽

Free Stream Turbulence ◽

Wing Tip Vortex ◽

Wing Tip

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Preliminary investigation of use of flexible folding wing tips for static and dynamic load alleviation

The Aeronautical Journal ◽

10.1017/aer.2016.108 ◽

2016 ◽

Vol 121 (1235) ◽

pp. 73-94 ◽

Cited By ~ 19

Author(s):

A. Castrichini ◽

V. Hodigere Siddaramaiah ◽

D.E. Calderon ◽

J.E. Cooper ◽

T. Wilson ◽

...

Keyword(s):

Aspect Ratio ◽

Preliminary Investigation ◽

Aircraft Design ◽

Dynamic Loads ◽

Induced Drag ◽

Aeroelastic Model ◽

Static And Dynamic Loads ◽

Folding Wing ◽

Wing Tips ◽

Wing Tip

ABSTRACTA recent consideration in aircraft design is the use of folding wing-tips with the aim of enabling higher aspect ratio aircraft with less induced drag while also meeting airport gate limitations. This study investigates the effect of exploiting folding wing-tips in flight as a device to reduce both static and dynamic loads. A representative civil jet aircraft aeroelastic model was used to explore the effect of introducing a wing-tip device, connected to the wings with an elastic hinge, on the load behaviour. For the dynamic cases, vertical discrete gusts and continuous turbulence were considered. The effects of hinge orientation, stiffness, damping and wing-tip weight on the static and dynamic response were investigated. It was found that significant reductions in both the static and dynamic loads were possible. For the case considered, a 25% increase in span using folding wing-tips resulted in almost no increase in loads.

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