Wet wing

A wet wing (also referred to as integral fuel tanks[1]) is an aerospace engineering technique where an aircraft's wing structure is sealed and used as a fuel tank.

The use of wet wings have become common among the majority of civilian designs, from large transport aircraft, such as airliners, to small general aviation aircraft. Several military aircraft, such as airlifters and aerial refueling tankers, have incorporated the technique as well.[2][3] A number of strike aircraft, such as the Grumman A-6 Intruder, have also been furnished with wet wings.[4] While it is technically feasible, studies have found it generally impractical to convert aircraft between wet wing and non-wet wing fuel storage.[5]

Features and performance

The wet wing offers several advantages; by eliminating the need for separate bladders, tanks, or other containers to house the fuel, weight savings are achieved, improving operational efficiency and performance.[6] In comparison with other methods, the wet wing maximises the structural volume available within the wings, while alternative approach are less space-efficient.[7] There are benefits from a safety point of view as, in the event of a leak, fuel is discharged externally rather than within a potentially populated section of the aircraft. The thickness of the wing is typically greater than that of an individual bladder or tank, a factor which decreases the likelihood of damage-related leaks, particularly in the event of a crash.[8]

A disadvantage of the wet wing is that every rivet, bolt, nut plate, hose and tube that penetrates the wing must be sealed to prevent fuel from leaking or seeping around these hardware components. This sealant must allow for expansion and contraction due to rapid temperature changes (such as when cold fuel is pumped into a warm wing tank) and must retain its sealing properties when submerged in fuel and when left dry for long periods of time. Because the tanks form an integral part of the structure, they cannot be removed without considerable disassembly of the overall aircraft; several access panels are also necessitated to perform maintenance activities and permit inspections.[9]

Beyond the complications posed to the design and manufacture of the aircraft, a wet wing necessitates ongoing maintenance activities throughout its operating life. Commonly, the sealant shall need to be replaced; the removal of old sealant (and the application of fresh) can be considerably difficult when working on a relatively small wing tank. Without appropriate maintenance, wet wings will commonly start leaking after a while, usually due to seal deterioration; however, resealing work may not be immediately successful and require multiple applications.[9] Over time, improved methods of sealing have been devised, reportedly extending the interval between resealing.[10]

Notable accidents in which the wet wing design and its drawbacks were causative include Chalk's Ocean Airways Flight 101 and the 1961 Goldsboro B-52 crash. Multiple aircraft have also sustained considerable structural damage due to improper maintenance procedures having been exercised during wet wing maintenance actions.[11] Multiple instances of manufacturing-related debris, posing a threat to aircraft safety, have been discovered on both civilian and military aircraft.[12][13]

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References

Citations

  1. Crane, Dale: Dictionary of Aeronautical Terms, third edition, page 557. Aviation Supplies & Academics, 1997. ISBN 1-56027-287-2
  2. "C-17 Wet Wing Defueling Cart". aviationpros.com. 26 May 2011.
  3. Whitford 2004, p. 153.
  4. Harwood, T. L. (1991). "An Assessment of Tailoring of Lightning Protection Design Requirements for a composite wing structure on a Metallic aircraft" (PDF). NASA.
  5. Air Safety Board 1950, p. 362.
  6. "What is a wet wing in aeronautical terms?". Times of India. 16 May 2010.
  7. Cook, Marc E. (5 September 2004). "No fuelin' around". aopa.org.
  8. Air Safety Board 1950, pp. 361-362.
  9. "Fuel Tank Reseal: Thankless, Expensive" (PDF). weepnomorellc.com. Retrieved 14 June 2020.
  10. "CN101982247B: Method for sealing and preventing integral wing tank of large-medium transport from corrosion". Google. 8 May 2013.
  11. "USAF Tool Trouble: "Near Catastrophic" $25mn E-8C FOD Fuel Tank Rupture". aerossurance.com. 13 March 2019.
  12. Gates, Dominic (19 February 2020). "Boeing finds debris in wing fuel tanks of several 737 Maxs". heraldnet.com.
  13. Losey, Stephen (2 April 2019). "Air Force again halts KC-46 deliveries after more debris found". airforcetimes.com.

Bibliography

  • Air Safety Board: Hearings...on H.R. 5561. United States Congress House Interstate and Foreign Commerce, 1950.
  • Whitford, Ray. Fundamentals of Fighter Design. Marlborough, Wiltshire: The Crowood Press Ltd, 2004. ISBN 1-86126-664-2.
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