Bird strike: Difference between revisions

F-16 canopy after a bird strike

A bird strike (sometimes birdstrike, bird hit, or BASH - Bird Aircraft Strike Hazard) is a collision between an airborne animal (usually a bird or bat^[1]) and a man-made vehicle, especially aircraft. It is a common threat to flight safety, and has caused a number of accidents with human casualties.^[2] Fatalities for civil aircraft are quite low and it has been estimated that there has been only 1 fatal accident to a jetliner in one billion (10⁹) flying hours.^[3] The majority of bird strikes (65%) cause little damage to the aircraft^[4] and result only in bird fatalities. Most accidents occur when the bird hits the windscreen or is ingested into the engines. These cause annual damages that have been estimated at $400 million^[2] in the United States of America alone to $1.2 billion worldwide to commercial aircraft.^[5] The term is also used for bird deaths resulting from collisions with man made structures such as power lines, towers and wind turbines.^[6]

Event description

View of fan blades of JT8D Jet engine after a bird strike.

Bird strikes happen most often during takeoff or landing, or during low altitude flight.^[7] However, bird strikes have also been reported at high altitudes, some as high as Template:M to ft to Template:M to ft above the ground. Bar-headed geese have been seen flying as high as Template:M to ft above sea level. An aircraft over the Côte d'Ivoire collided with a Rüppell's Vulture at the astonishing altitude of Template:M to ft, the current record avian height.^[8] The majority of bird collisions occur near or on airports (90%, according to the ICAO) during takeoff, landing and associated phases. According to the FAA wildlife hazard management manual for 2005, less than 8% of strikes occur above Template:M to ft and 61% occur at less than 30 m (100 ft).

A hawk stuck in the nosecone of a C-130

The point of impact is usually any forward-facing edge of the vehicle such as a wing leading edge, nose cone, jet engine cowling or engine inlet.

Jet engine ingestion is extremely serious due to the rotation speed of the engine fan and engine design. As the bird strikes a fan blade, that blade can be displaced into another blade and so forth, causing a cascading failure. Jet engines are particularly vulnerable during the takeoff phase when the engine is turning at a very high speed and the plane is at a low altitude where birds are more commonly found.

The force of the impact on an aircraft depends on the weight of the animal and the speed difference and direction at the impact. The energy of the impact increases with the square of the speed difference. Hence a low-speed impact of a small bird on a car windshield causes relatively little damage. High speed impacts, as with jet aircraft, can cause considerable damage and even catastrophic failure to the vehicle. The energy of a 5 kg (11 lb) bird moving at a relative velocity of 275 km/h (171 mph) approximately equals the energy of a 100 kg (220 lb) weight dropped from a height of 15 metres (49 ft)^[9]. However, according to the FAA only 15% of strikes (ICAO 11%) actually result in damage to the aircraft.

Inside of a jet engine after a bird strike

Bird strikes can damage vehicle components, or injure passengers. Flocks of birds are especially dangerous, and can lead to multiple strikes, and damage. Depending on the damage, aircraft at low altitudes or during take off and landing often cannot recover in time, and thus crash.

Remains of the bird, termed snarge,^[10] are sent to identification centers where forensic techniques may be used to identify the species involved. These samples need to be taken carefully by trained personnel to ensure proper analysis^[11] and reduce the risks of zoonoses.^[12]

The Israeli Air Force has a larger than usual birdstrike risk as Israel is on a major spring and autumn long-distance bird migration route.

Sacramento International Airport has had more bird strikes (1,300 collisions between birds and jets between 1990 and 2007, causing an estimated $1.6million in damage) than any other California airport. Sacramento International Airport has the most bird strikes of any airport in the west and sixth among airports in the US, according to the FAA, as it is located along the Pacific Flyway, a major bird migration path ^[13][14].

Species

The animals most frequently involved in bird strikes are large birds with big populations, particularly geese and gulls in the United States. In parts of the US, Canada Geese and migratory Snow Geese populations have risen significantly while feral Canada Geese and Greylag Geese have increased in parts of Europe increasing the risk of these large birds to aircraft.^[15] In other parts of the world, large birds of prey such as Gyps vultures and Milvus kites are often involved.^[3] In the US reported strikes are divided between waterfowl (32%), gulls (28%), and raptors (17%) (Data from the BSC USA).^{[citation needed]} The Smithsonian Institution's Feather Identification Laboratory has identified turkey vultures as the most damaging birds, followed by Canada geese and white pelicans,^[16] all very large birds. In terms of frequency, the laboratory most commonly finds Mourning Doves and Horned Larks involved in the strike.^[16]

The largest numbers of strikes happen during the spring and fall migrations. Bird strikes above 500 feet altitude are about 7 times more common at night than during the day during the bird migration season.^[17]

Countermeasures

There are three approaches to reduce the effect of bird strikes. The vehicles can be designed to be more bird resistant, the birds can be moved out of the way of the vehicle, or the vehicle can be moved out of the way of the birds.

Vehicle design

A ICE 3 high speed train after hitting a bird

Most large commercial jet engines include design features that ensure they can shut-down after "ingesting" a bird weighing up to 1.8 kg (4 lb). The engine does not have to survive the ingestion, just be safely shut down. This is a 'stand alone' requirement, i.e., the engine must pass the test, not the aircraft. Multiple strikes (due to hitting a bird flock) on twin engine jet aircraft are very serious events because they can disable multiple aircraft systems, requiring emergency action to land the aircraft, as in the January 15, 2009 forced ditching of US Airways Flight 1549.

Modern jet aircraft structures must be able to withstand one four-pound-bird collision; the empennage (tail) must withstand one 8-pound-bird collision. Cockpit windows on jet aircraft must be able to withstand one 4-pound-bird collision without yielding or spalling.

At first, bird strike testing by manufacturers involved firing a bird carcass from a gas cannon and sabot system into the tested unit. The carcass was soon replaced with suitable density blocks, often gelatin, to ease testing. Currently testing is mainly conducted with computer simulation, although final testing usually involves some physical experiments (see birdstrike simulator).

Bird management

To reduce birdstrikes on takeoff and landing, airports engage in bird management and control. There is no single solution that works for all situations. Birds have been noted for their adaptability and control methods may not remain effective for long.^[18]

This includes changes to habitat around the airport to reduce its attractiveness to birds.^[16] Vegetation which produces seeds, grasses which are favored by geese,^[19] manmade food, a favorite of gulls, all should be removed from the airport area. Trees and tall structures which serve as roosts at night for flocking birds or perches for raptors should be removed or modified to discourage bird use.^[20]

Other approaches try to scare away the birds using frightening devices, for example sounds, lights, pyrotechnics, radio-controlled airplanes, decoy animals/corpses, lasers, dogs etc.^[20] Firearms are also occasionally employed.

A UH-60 Black Hawk after a collision with a Common Crane, and failure of the windshield

A successful approach has been the utilization of dogs, particularly Border collies, to scare away birds and wildlife.^[21] Another alternative is bird capture and relocation.

Falcons are sometimes used to harass the bird population, as for example on John F. Kennedy International Airport.^[16] At Manchester Airport in England the usual type of falcon used for this is a peregrine falcon/lanner falcon hybrid, as its flight range covers the airport.

An airport in New Zealand uses electrified mats to reduce the number of worms that attracted large numbers of sea gulls.^[16]

Flight path

A UH-60 after collision with a crane, and subsequent failure of the windshield as seen from the inside.

Pilots have very little training in wildlife avoidance nor is training required by any regulatory agency. However, they should not takeoff or land in the presence of wildlife, avoid migratory routes,^[22] wildlife reserves, estuaries and other sites where birds may congregate. When operating in the presence of bird flocks, pilots should seek to climb above 3,000 feet as rapidly as possible as most birdstrikes occur below 3,000 feet. Additionally pilots should slow their aircraft when confronted with birds. The energy that must be dissipated in the collision is approximately the relative kinetic energy (${\displaystyle E_{k}}$) of the bird, defined by the equation ${\displaystyle E_{k}={\frac {1}{2}}mv^{2}}$ where ${\displaystyle m}$ is the mass and ${\displaystyle v}$ is the velocity. Therefore the speed of the aircraft is much more important than the size of the bird when it comes to reducing energy transfer in a collision. The same can be said for jet engines: the slower the rotation of the engine, the less energy which will be imparted onto the engine at collision.

The body density of the bird is also a parameter that influences the amount of damage caused.^[23]

The US Military Aviation Hazard Advisory System uses a Bird Avoidance Model^[24] based on data from the Smithsonian Institution, historical patterns of bird strikes and radar tracking of bird activity.^[16] This model has been extremely successful. Prior to flight USAF pilots check for bird activity on their proposed low level route or bombing range. If bird activity is forecast to be high, the route is changed to one of lower threat. In the first year this BAM model was required as a preflight tool, the USAF Air Combat Command experienced a 70% drop in birdstrikes to its mission aircraft.

TNO, a Dutch R&D Institute, has developed the successful ROBIN (Radar Observation of Bird Intensity) for the Royal Netherlands Airforce. ROBIN is a near real-time monitoring system for flight movements of birds. ROBIN identifies flocks of birds within the signals of large radar systems. This information is used to give Air Force pilots warning during landing and take-off. Years of observation of bird migration with ROBIN have also provided a better insight into bird migration behaviour, which has had an influence on averting collisions with birds, and therefore on flight safety. Since the implementation of the ROBIN system at the Royal Netherlands Airforce the number of collisions between birds and aircraft in the vicinity of military airbases has decreased by more than 50%.

There are no civil aviation counterparts to the above military strategies. Some experimentation with small portable radar units has taken place at some airports. However, no standard has been adopted for radar warning nor has any governmental policy regarding warnings been implemented.

Incidents

The Federal Aviation Administration estimates the problem costs US aviation 600 million dollars annually and has resulted in over 200 worldwide deaths since 1988^{[citation needed]}. In the United Kingdom the Central Science Laboratory estimates^[5] that, worldwide, the cost of birdstrikes to airlines is around US$1.2 billion annually. This cost includes direct repair cost and lost revenue opportunities while the damaged aircraft is out of service. Estimating that 80% of bird strikes are unreported, there were 4,300 bird strikes listed by the United States Air Force and 5,900 by US civil aircraft in 2003.

The first reported bird strike was by Orville Wright in 1905, and according to their diaries Orville … flew 4,751 meters in 4 minutes 45 seconds, four complete circles. Twice passed over fence into Beard's cornfield. Chased flock of birds for two rounds and killed one which fell on top of the upper surface and after a time fell off when swinging a sharp curve.^[3]

The first recorded bird strike fatality was reported in 1912 when aero-pioneer Cal Rodgers collided with a gull which became jammed in his aircraft control cables. He crashed at Long Beach, California, was pinned under the wreckage and drowned.^[2][25]

The greatest loss of life directly linked to a bird strike was on October 4, 1960, when Eastern Air Lines Flight 375, a Lockheed L-188 Electra flying from Boston, flew through a flock of common starlings during take off, damaging all four engines. The plane crashed shortly after take-off into Boston harbor, with 62 fatalities out of 72 passengers. Subsequently, minimum bird ingestion standards for jet engines were developed by the FAA.

On 22 September 1995, a U.S. Air Force E-3 Sentry AWACS aircraft (Callsign Yukla 27, serial number 77-0354), crashed shortly after take off from Elmendorf AFB, AK. The plane lost power to both port side engines after these engines ingested several Canada Geese during takeoff. The aircraft went down in a heavily wooded area about two miles northeast of the runway, killing all 24 crew members on board.^[26]

The Space Shuttle Discovery also hit a bird (a vulture) during the take-off of STS-114 on July 26, 2005, although the collision occurred early during take off and at low speeds, with no obvious damage to the shuttle.^[27]

NASA also lost an astronaut, Theodore Freeman, to a bird strike. He was killed when a goose shattered the plexiglass cockpit of his T-38 Talon, resulting in shards being ingested by the engines, leading to a fatal crash.^{[citation needed]}

Aircraft continue to be lost on a routine basis to birdstrikes. In the fall of 2006 the USAF lost a twin engine T-38 trainer to a bird strike (ducks) and in the October 2007 the US Navy lost a T-45 jet trainer in a collision with a bird.

In the summer of 2007, Delta Air Lines suffered an incident in Rome, Italy, as one of its Boeing 767 aircraft, on takeoff, ingested yellow legged gulls into both engines. Although the aircraft returned to Rome safely, both engines were damaged and had to be changed. United Air Lines suffered a twin engine bird ingestion by a Boeing 767 on departure from Chicago's O'Hare Field in the spring of 2007. One engine caught fire and bird remains were found in the other engine.

Virgin America Flight 837 performed an emergency landing at San Francisco International Airport on September 3 2007 due to a bird strike. The plane involved was "Air Colbert", named for host of The Colbert Report Stephen Colbert.

On April 29, 2007, a Thomsonfly Boeing 757 from Manchester Airport, UK to Lanzarote Airport, Spain suffered a bird strike when at least one bird, supposedly a heron, was ingested by the starboard engine. The plane landed safely back at Manchester Airport a while later. The incident was captured by a plane spotter, as well as the emergency call picked up by a plane spotter's radio. The video was later published.^[28][29]

On November 10, 2008, a Ryanair flight FR4102 Boeing 737 from Frankfurt to Rome made an emergency landing at Ciampino Airport after multiple bird strikes put both engines out of commission. After touchdown, the left main landing gear collapsed, and the aircraft briefly veered off the runway before the crew regained control. Passengers and crew were evacuated through the starboard emergency exits. Three passengers and two crew members were injured, none seriously.^[30]

On January 4, 2009, a bird strike is suspected in the crash of a PHI S-76 helicopter in Louisiana. While the final report has not been published, early reports point to a bird impacting the windscreen and retarding the throttles, leading to the death of 7 of the 8 persons on board.^[31]

On January 15, 2009, US Airways Flight 1549 from LaGuardia Airport to Charlotte/Douglas International Airport ditched into the Hudson River after experiencing a loss of both turbines. It is suspected that the engine failure was caused by running into a flock of geese at an altitude of about 975 m (3,200 feet), shortly after takeoff. All 150 passengers and 5 crew members were safely evacuated after a successful water landing.^[32] The NTSB has yet to publish a report on this incident.

References

1. "Spatial analysis of Bird-Aircraft Strike Hazard for Moody Air Force Base aircraft in the state of Georgia.(Report)" (PDF). Georgia Journal of Science. 65 (4): 161–169. 2007. {{cite journal}}: Cite uses deprecated parameter |authors= (help)
2. Sodhi, Navjot S. (2002). "Competition in the air: birds versus aircraft". The Auk. 119 (3): 587–595.
3. Thorpe, John (2003). "Fatalities and destroyed civil aircraft due to bird strikes, 1912-2002" (PDF). International Bird Strike Committee, IBSC 26 Warsaw. {{cite conference}}: Unknown parameter |booktitle= ignored (|book-title= suggested) (help)
4. Milson, T.P. & N. Horton (1995). Birdstrike. An assessment of the hazard on UK civil aerodromes 1976-1990. Central Science Laboratory, Sand Hutton, York, UK.
5. Allan, John R. (2001-08-27). "The costs of birdstrikes to commercial aviation". DigitalCommons@University of Nebraska. Retrieved 2009-01-16. {{cite web}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)
6. Manville, A.M., II. (2005 chapter= Bird strikes and electrocutions at power lines, communication lowers, and wind turbines: state of the art and slate of the science — next steps toward mitigation.). Bird Conservation Implementation in the Americas: Proceedings 3rd International Partners in Flight Conference 2002 (PDF). U.S.D.A. Forest Service. GTR-PSW-191, Albany. CA. {{cite book}}: Check date values in: |year= (help); Missing pipe in: |year= (help); Unknown parameter |editors= ignored (|editor= suggested) (help)
7. Richardson, W. John (1994). "Serious birdstrike-related accidents to military aircraft of ten countries: preliminary analysis of circumstances" (PDF). Bird Strike Committee Europe BSCE 22/WP22, Vienna. {{cite conference}}: Unknown parameter |booktitle= ignored (|book-title= suggested) (help)
8. Thomas Alerstam, David A. Christie, Astrid Ulfstrand. Bird Migration (1990). Page 276.
9. Note however that the momentum (as distinct from the kinetic energy) of the bird in this example is considerably less than that of the tonne weight, and therefore the force required to deflect it is also considerably less.
10. Dove, CJ, Marcy Heacker, Lee Weigt (2006). "DNA identification of birdstrike remains-progress report". Bird Strike Committee USA/CANADA, 8th Annual meeting, St. Louis. {{cite conference}}: Unknown parameter |booktitle= ignored (|book-title= suggested) (help)
11. "Preparation of Bird Strike Remains for Identification." (PDF). Proc. Bird Strike Comm. Europe 22, Vienna 1994. 1994. pp. 531–543. {{cite conference}}: Cite uses deprecated parameter |authors= (help); Unknown parameter |booktitle= ignored (|book-title= suggested) (help); line feed character in |title= at position 39 (help)
12. "Indirect Flight of an African Bat to Israel: An Example of the Potential for Zoonotic Pathogens to Move between Continents". Vector-Borne and Zoonotic Diseases. 6 (4): 347–350. 2006. doi:10.1089/vbz.2006.6.347. {{cite journal}}: Cite uses deprecated parameter |authors= (help)
13. SMF Tops California Airports For Bird Strikes 100 Bird Strikes Reported Annually In Sacramento, Experts Say January 15, 2009
14. Sacramento airport seeks bird-kill law for air safety
15. Allan, J. R. ; J. C. Bell;V. S. Jackson (1999). "An Assessment Of The World-wide Risk To Aircraft From Large flocking Birds". Bird Strike Committee Proceedings 1999 Bird Strike Committee-USA/Canada, Vancouver, BC. {{cite conference}}: Unknown parameter |booktitle= ignored (|book-title= suggested) (help)
16. Wired Magazine: Bird Plus Plane Equals Snarge
17. Dolbeer, RA. "Height Distribution of Birds Recorded by Collisions with Civil Aircraft". Journal of Wildlife Management: 1345–1350.
18. Harris, Ross E. and Rolph A. Davis (1998). Evaluation of the efficacy of products and techniques for airport bird control (PDF). LGL Limited Environmental Research Associates, TP 13029.
19. Smith, A. E., S. R. Craven, and P. D. Curtis (1999). "Managing Canada geese in urban environments". Jack Berryman Institute Publication 16, and Cornell University Cooperative Extension, Ithaca, N.Y. ISBN ISBN 1577532554. {{cite journal}}: Check |isbn= value: invalid character (help); Cite journal requires |journal= (help)
20. IBSC (2006). Recommended Practices No. 1: Standards For Aerodrome Bird/Wildlife Control. Issue 1 (PDF).
21. Carter, Nicholas B., Dr. (2003). "Border collies prove effective in controlling wildlife at airports". 58 (3). ICAO: 4–8. Retrieved 2009-01-16. {{cite journal}}: Cite journal requires |journal= (help); Unknown parameter |month= ignored (help)
22. "AIP Bird Hazards". Transport Canada. Retrieved 2009-03-24.
23. "Determination of body density for twelve bird species". Ibis. 137 (3): 424–428. 1995. doi:10.1111/j.1474-919X.1995.tb08046.x.
24. US Bird avoidance model
25. Howard, Fred (1998). Wilbur and Orville: A Biography of the Wright Brothers. Courier Dover. p. 375. ISBN 0486402975.
26. "CVR transcript Boeing E-3 USAF Yukla 27 - 22 SEP 1995". Accident investigation. Aviation Safety Network. 22 September 1995. Retrieved 2009-01-16.
27. Young, Kelly (2006-04-28). "The Space Vulture Squadron". Retrieved 2009-01-17.
28. Lowe, Simon (April 29, 2007). Thomsonfly - Boeing 757-200. Flightlevel350.com. Retrieved 2009-01-16.
29. Lowe, Simon (2008-01-06). "Thomson 263H Bird Strike In Manchester Airport". YouTube. Retrieved 2009-01-16.^{[unreliable source?]}
30. Milmo, Dan (10 November 2008). "Bird strike forces Ryanair jet into emergency landing in Italy". guardian.co.uk. Retrieved 2009-01-16.
31. Bird Strike New Suspect in Helicopter Crash
32. US Airways Plane Crashes Into Hudson River

See also

• Birdstrike simulator
• Foreign object damage

External links

• 2009 Bird Strike North America Conference
• International Bird Strike Committee
• Bird Strike Committee Canada
• BSC USA
• Birdstrike Control Program
• http://wildlife-mitigation.tc.faa.gov/public_html/index.html
• http://wildlife.pr.erau.edu/FAADatabase.htm
• Aviation Hazard Advisory System
• List of significant bird strikes
• ROBIN: Radar Observation of Bird Intensity
• Comite de Prevencion de Peligro Aviario de America del Sur y del Caribe CARSAMPAF