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What are the pods with the sharp trailing edges underneath the wings of large airliners, as shown in the image below? enter image description here

My best guess would be fuel tanks

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    $\begingroup$ FWIW, most airplanes use the entire wing as fuel tanks. The inside of the wings. They look deceptively like there's not much space in there but wings are one of the largest structures on an aircraft and they're actually very thick when designed for good aerodynamic efficiency and are therefore the largest bit of unused space. The plane in that picture specifically has fuel tanks in its wings (and maybe horizontal stabilizer/tail). $\endgroup$
    – slebetman
    Commented Aug 1, 2014 at 3:39
  • $\begingroup$ Thanks @slebrtman! I knew that the main tanks were in the wings though, thought it might be extra tanks (-: $\endgroup$
    – Jonny
    Commented Aug 1, 2014 at 14:54
  • $\begingroup$ They are called anti-shock bodies and they let the flaps go down and out at the same time. Inside them there are many levers and arms that let the flap do this. $\endgroup$
    – Mary Scott
    Commented Oct 20, 2017 at 15:38
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    $\begingroup$ NOTE: whatever the chosen and most upvoted answer says, THEY ARE NOT ANTI-SHOCK BODIES nor fuel tanks. They are fairings of the flap mechanism. $\endgroup$
    – sophit
    Commented Oct 30, 2022 at 3:54

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They are Anti-shock bodies.

In the transsonic speed range (above about Mach 0.7), aircraft drag is governed by Whitcomb area rule, which basically says that to minimize drag, the aircraft cross-sectional area must change as smoothly as possible, independent of its actual shape. It is somewhat counter-intuitive, but well established.

Compare this Junkers patent drawing (via Wikipedia):

Junkers patent drawing

which shows various combinations of positioning engines to adopt the area rule.

For the usual aircraft design the cross-section increases over the engines that hang ahead of the wing leading edge and then the thick part of the wing and wing box (the thicker part of fuselage where wings connect), but the wing tips are too thin and the cross-sectional area would decrease too quickly, so something needs to be attached to the trailing edge to make the reduction of cross-sectional area smoother. The anti-shock bodies are usually conveniently combined with flap actuator and track fairings.

There are however some aircraft that have anti-shock bodies combined with other functions, e.g. Tu-134 (and many other designs by Tupolev Design Bureau) retracts landing gear in its anti-shock bodies (which are just one large on each side):

Tu-134

The flap actuator and track fairings exist on all aircraft that have flaps that extend aft as well as down (Fowler flaps and their double-slotted variants), but on slower planes they are much thinner. Compare e.g. ATR-72, which does not need to be area-ruled with its maximum Mach 0.55.

ATR-72

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  • $\begingroup$ The flap mechanism of the ATR is also much simpler and would not benefit from long fairings. The flaps rotate around a hinge point located far below the wing whereas the Fowler-type flaps move back along rails which extend beyond the training edge when the flap is retracted. Due to the lower speed, the flaps of turboprops need not to be as complex as those on jets. $\endgroup$ Commented Nov 2, 2021 at 7:27
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    $\begingroup$ Albeit being technically a very good answer, it is unfortunately formally not correct because that features in the picture are just fairings for the flaps tracks and they have nothing to do with antishock bodies if not, if any, as a byproduct. $\endgroup$
    – sophit
    Commented Oct 29, 2022 at 18:41
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    $\begingroup$ At least for Boeing aircraft they are solely designed as flap track fairings. Very nice answer but unfortunately not really fitting. $\endgroup$
    – Chris
    Commented Oct 29, 2022 at 20:35
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    $\begingroup$ Wrong! They are just aerodynamic covers for the mechanical actuators and mechanisms to extend and retract the flaps. $\endgroup$ Commented Nov 1, 2022 at 14:17
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    $\begingroup$ @CharlesBretana You can't just add "This answer is just WRONG." to someone else's answer (even if you're right). If you think an answer is wrong, downvote it and leave a comment (as you've done). Also, see our Meta discussion on the topic. $\endgroup$
    – Bianfable
    Commented Nov 1, 2022 at 14:29
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They are not fuel tanks, the fuel tanks are inside the wings.

Those are covers for the flaps actuators: since the actuators and their rails protrude beneath the wing, without a cover they would greatly increase drag. The covers are more aerodynamic and thus produce overall less drag (at the expense of a slight increase in overall weight)

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They are not anti-shock bodies nor fuel tanks.


The A320's flight manual (see slide 24) calls them "flap track fairing" since they are... well, fairings for the flap tracks and those fairings are just as big as needed to smoothly cover the flap tracks, nothing more nothing less.

The following picture (my work) shows one of these tracks of an A300 with fairing removed:

A300 flaps assembly

The straight yellow part (which I underlined in blue) is basically a rail fixed to the wing on which the two flanges (circled in green) slide toward the left bringing along the flaps; an endless screw (in red) actuates the sliding. The shape of the fairing can be understood from the background of the assembly: as visible, it is just as big as needed to enclose the structures, nothing more, nothing less.

So they don't carry out the duty of anti-shock bodies (or any other aerodynamic function) if not as a byproduct. Anti-shock bodies used to look like a bulge behind the trailing edge and aligned with the chord and protruding both over and under the wing, like in the Convair 990:

anti-shock bodies on Convair 990

In modern jetliners that function is taken over by the quite big fairing located where the wing meets with the fuselage, in yellow on this A380 picture from Wikipedia:

 A380

Luckily enough these two pictures were taken from more or less the same angle and this makes the comparison easier.

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There is a lot of misinformation here, and the top answer tries to combine concepts from two different applications. These 'pods' are flap track fairings, sometimes called trailing edge fairings, and their purpose is to cover and reduce drag over the heavy duty mechanisms that extend the flaps of an aircraft wing during high-lift operating regimes. See https://en.m.wikipedia.org/wiki/Aircraft_fairing

These pods are not anti-shock bodies, despite nearly all answers trying to use it as a buzzword. Anti-shock bodies are attached to the upper surface of the trailing edge (unlike flap track fairings, which are attached to the underside). Anti-shock bodies were used to reduce the shock that occurrs over the wing while traveling at transonic speeds. They were made obsolete with the advent of supercritical airfoils, and no longer found on modern aircrafts.

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    $\begingroup$ Welcome to the site, AJ Zhang! They are indeed fairings but made larger than necessary in order to smoothen the cross section area distribution over length. So they indeed serve both purposes equally. Supercritical airfoils need them as much as the old-fashioned sort did. $\endgroup$ Commented Nov 2, 2021 at 7:22
  • $\begingroup$ But are they formed such to affect the area rule of the whole aircraft as the current "winning" answer suggests @PeterKämpf $\endgroup$
    – Jpe61
    Commented Nov 2, 2021 at 8:26
  • $\begingroup$ @Jpe61 … and at transsonic speed their Y and Z location is less important - what counts is the distribution of the total cross section over length. No "but" necessary. $\endgroup$ Commented Nov 2, 2021 at 8:44
  • $\begingroup$ Is there a definitive source that states they are equally performing the function of area ruling? @peterkämpf saying so does sorta list as a definitive source, but other than that, with all due respect? I find it odd that to offset the adverse effect of engine pods, these fairings would be necessary tens (?) of meters away from the engines. $\endgroup$
    – Jpe61
    Commented Nov 2, 2021 at 16:51
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    $\begingroup$ @Jpe61 In this answer I use a picture from VC-10 development showing their effect at Mach 0.9. Unfortunately, the dumbing down of NASA pages has deleted the original sources (like oea.larc.nasa.gov/PAIS/Concept2Reality/area_rule.html) where this picture appeared online first. And Küchemann bodies do not "offset the effect of engine pods" but offset the sudden drop in wing thickness due to rear loading. $\endgroup$ Commented Nov 2, 2021 at 18:46

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