British Airways Flight 9

British Airways Flight 9
G-BDXH, the aircraft involved in the accident, 1980
Accident
Date 24 June 1982
Summary Quadruple engine flameout due to blockage by volcanic ash
Site near Mount Galunggung
West Java, Indonesia
Coordinates: 7°15′24″S 108°04′37″E / 7.25667°S 108.07694°E / -7.25667; 108.07694
Aircraft
Aircraft type Boeing 747-236B
Aircraft name City of Edinburgh
Operator British Airways
Registration G-BDXH
Flight origin London Heathrow Airport
London, England
1st stopover Sahar Airport
Bombay, India
2nd stopover Madras Airport
Madras, India
3rd stopover Sultan Abdul Aziz Shah Airport
Kuala Lumpur, Malaysia
4th stopover Perth Airport, Perth, Western Australia, Australia
Last stopover Melbourne Airport, Melbourne, Victoria, Australia
Destination Auckland Airport
Auckland, New Zealand
Passengers 248
Crew 15
Injuries 0
Survivors 263 (all)

British Airways Flight 9, sometimes referred to by its callsign Speedbird 9 or as the Jakarta incident,[1] was a scheduled British Airways flight from London Heathrow to Auckland, with stops in Bombay, Madras, Kuala Lumpur, Perth, and Melbourne.

On 24 June 1982, the route was flown by the City of Edinburgh, a Boeing 747-236B. The aircraft flew into a cloud of volcanic ash thrown up by the eruption of Mount Galunggung (approximately 110 miles (180 km) south-east of Jakarta, Indonesia), resulting in the failure of all four engines. The reason for the failure was not immediately apparent to the crew or air traffic control. The aircraft was diverted to Jakarta in the hope that enough engines could be restarted to allow it to land there. The aircraft glided out of the ash cloud, and all engines were restarted (although one failed again soon after), allowing the aircraft to land safely at the Halim Perdanakusuma Airport in Jakarta.

The crew members of the accident segment had boarded the aircraft in Kuala Lumpur, while many of the passengers had been aboard since the flight began in London.[2]

Accident

Shortly after 13:40 UTC (20:40 Jakarta time) above the Indian Ocean, south of Java, the flight crew (consisting of 32-year-old Senior First Officer Roger Greaves and 40-year-old Senior Engineer Officer Barry Townley-Freeman while 41-year-old Captain Eric Moody was in the lavatory) first noted an effect on the windscreen similar to St. Elmo's fire.[1] The phenomenon persisted after Moody returned from the lavatory. Despite the weather radar showing clear skies, the crew switched on engine anti-ice and the passenger seat belt signs as a precaution.

As the flight progressed, smoke began to accumulate in the passenger cabin of the aircraft; it was first assumed to be cigarette smoke. However, it soon began to grow thicker and had an ominous odour of sulfur. Passengers who had a view of the aircraft's engines through the window noted that they were unusually bright blue, with light shining forward through the fan blades and producing a stroboscopic effect.[3]

At approximately 13:42 UTC (20:42 Jakarta time), the number four Rolls-Royce RB211 engine began surging and soon flamed out. The flight crew immediately performed the engine shutdown drill, quickly cutting off fuel supply and arming the fire extinguishers. Less than a minute later, at 13:43 UTC (20:43 Jakarta time), engine two surged and flamed out. Within seconds, and almost simultaneously, engines one and three flamed out, prompting the flight engineer to exclaim, "I don't believe it—all four engines have failed!"[3]

Without engine thrust, a 747-200 has a glide ratio of approximately 15:1, meaning it can glide forward 15 miles for every mile it drops. The flight crew quickly determined that the aircraft was capable of gliding for 23 minutes and covering 91 nautical miles (169 km) from its flight level of 37,000 feet (11,000 m).[3] At 13:44 UTC (20:44 Jakarta time), Greaves declared an emergency to the local air traffic control authority, stating that all four engines had failed. However, Jakarta Area Control misunderstood the message, interpreting the call as meaning that only engine number four had shut down. After a nearby Garuda Indonesia flight relayed the message to them, air traffic control correctly understood the urgent message. Despite the crew "squawking" the emergency transponder setting of 7700, air traffic control could not locate the 747 on their radar screens.

Many passengers, fearing for their lives, wrote notes to relatives. One such passenger was Charles Capewell, who scrawled "Ma. In trouble. Plane going down. Will do best for boys. We love you. Sorry. Pa XXX" on the cover of his ticket wallet.[2]

Owing to the high Indonesian mountains on the south coast of the island of Java, an altitude of at least 11,500 feet (3,500 m) was required to cross the coast safely. The crew decided that if the aircraft was unable to maintain altitude by the time they reached 12,000 feet (3,700 m) they would turn back out to sea and attempt to ditch into the Indian Ocean. The crew began engine restart drills, despite being well outside the recommended maximum engine in-flight start envelope altitude of 28,000 feet (8,500 m). The restart attempts failed.

Despite the lack of time, Moody made an announcement to the passengers that has been described as "a masterpiece of understatement":[3]

Ladies and gentlemen, this is your captain speaking. We have a small problem. All four engines have stopped. We are doing our damnedest to get them going again. I trust you are not in too much distress.[3][4][5]

As pressure within the cabin fell, oxygen masks dropped from the ceiling – an automatic emergency measure to make up for the lack of air. On the flight deck, however, Greaves's mask was broken; the delivery tube had detached from the rest of the mask. Moody swiftly decided to descend at 1,800 m per minute to an altitude where there was enough pressure in the outside atmosphere to breathe almost normally.

At 13,500 feet (4,100 m), the crew was approaching the altitude at which they would have to turn over the ocean and attempt a risky ditching. Although there were guidelines for the water landing procedure, no one had ever tried it in a Boeing 747. As they performed the engine restart procedure, engine number four finally started, and at 13:56 UTC (20:56 Jakarta time), Moody used its power to reduce the rate of descent. Shortly thereafter, engine three restarted, allowing him to climb slowly. Shortly after that, engines one and two successfully restarted as well.[6] The crew subsequently requested and expedited an increase in altitude to clear the high mountains of Indonesia.[7]

As the aircraft approached its target altitude, the St. Elmo's fire effect on the windscreen returned. Moody throttled back; however, engine number two surged again and was shut down. The crew immediately descended and held 12,000 feet (3,700 m).

As Flight 9 approached Jakarta, the crew found it difficult to see anything through the windscreen, and made the approach almost entirely on instruments, despite reports of good visibility. The crew decided to fly the instrument landing system (ILS); however, the vertical guidance system was inoperative, so they were forced to fly with only the lateral guidance as the first officer monitored the airport's distance measuring equipment (DME). He then called out how high they should be at each DME step along the final approach to the runway, creating a virtual glide slope for them to follow. It was, in Moody's words, "a bit like negotiating one's way up a badger's arse."[1] Although the runway lights could be made out through a small strip of the windscreen, the landing lights on the aircraft seemed to be inoperable. After landing, the flight crew found it impossible to taxi, due to glare from apron floodlights which made the already sandblasted windscreen opaque.

Investigation

Damaged engine parts from BA 9 on display at Auckland Museum

Post-flight investigation revealed that City of Edinburgh's problems had been caused by flying through a cloud of volcanic ash from the eruption of Mount Galunggung. Because the ash cloud was dry, it did not appear on the weather radar, which was designed to detect the moisture in clouds. The cloud sandblasted the windscreen and landing light covers and clogged the engines. As the ash entered the engines, it melted in the combustion chambers and adhered to the inside of the power-plant. As the engine cooled from inactivity, and as the aircraft descended out of the ash cloud, the molten ash solidified and enough of it broke off for air to again flow smoothly through the engine, allowing a successful restart. The engines had enough electrical power to restart because one generator and the on-board batteries were still operating; electrical power was required for ignition of the engines.

Aftermath

Engines one, two and three were replaced at Jakarta, as well as the windscreen, and the fuel tanks were cleared of the ash that had entered them through the pressurisation ducts, contaminating the fuel and requiring that it be disposed of. After the aircraft was ferried back to London, engine number four was replaced and major work was undertaken to return the 747 to service.

Although the airspace around Mount Galunggung was closed temporarily after the accident, it was reopened days later. It was only after a Singapore Airlines 747 was forced to shut down three of its engines while flying through the same area nineteen days later (13 July) that Indonesian authorities closed the airspace permanently and rerouted airways to avoid the area; a watch was set up to monitor clouds of ash.[3] Flight 9 was not the first encounter with this eruption – a Garuda DC-9 had encountered ash on 5 April 1982.[8]

The crew received various awards, including the Queen's Commendation for Valuable Service in the Air for Moody,[9] and medals from the British Airline Pilots' Association. Following the accident, the crew and passengers formed the Galunggung Gliding Club as a means to keep in contact.[10] G-BDXH's engineless flight entered the Guinness Book of Records as the longest glide in a non-purpose-built aircraft (this record was later broken by Air Canada Flight 143 in 1983 and Air Transat Flight 236 in 2001).

One of the passengers, Betty Tootell, wrote a book about the accident, All Four Engines Have Failed, having managed to trace some 200 of the 247 passengers on the flight. In 1993, Tootell married fellow passenger James Ferguson, who had been seated in the row in front of her. She later noted: "The 28th December 2006 marks the start of our 14th year of honeymoon, and on the 24th June 2007 many passengers and crew will no doubt gather to celebrate the 25th anniversary of our mid-air adventure."[11]

British Airways continued to operate the Flight 9 route from London Heathrow to Sydney (though in March 2012 the route was curtailed to Bangkok). City of Edinburgh, later renamed City of Elgin, continued to fly for British Airways after the accident, before being sold to European Aviation Air Charter. The aircraft was taken out of service in February 2004 and in July 2009 the then 30-year-old aircraft was broken up at a breaking facility at Bournemouth International Airport (BOH).[12] It has been reported that in September 2009 the environmental group 10:10 bought the fuselage of City of Edinburgh to be made into tags. Despite a BBC report of this, the remains of the fuselage had been removed from the facility by that time. The tags, bearing the campaign's logo, were reportedly worn as necklaces or bracelets to raise awareness of 10:10's work: the organisation aimed to persuade individuals, organisations and businesses to reduce their carbon emissions by 10% in 2010.[13]

Captain Eric Moody gave an interview to the July 2010 edition of Flaps Podcast, where he recounted his experience.[14]

The Discovery Channel Canada / National Geographic TV series Mayday featured Flight 9 in a 2007 episode titled Falling From the Sky or All Engines Failed which featured interviews with the flight crew and passengers, and a dramatization of the flight.[15]

Similar incident

A nearly identical incident occurred on 15 December 1989 when KLM Flight 867, a Boeing 747-400 from Amsterdam to Anchorage, Alaska, flew into the plume of the erupting Mount Redoubt, causing all four engines to fail due to compressor stall. Once the flight cleared the ash cloud, the crew restarted each engine and made a safe landing at Anchorage.[16]

Other gliding airliners

See also

References

  1. 1 2 3 Faith, Nicholas (1998). Black Box. p. 156.
  2. 1 2 Episode "Falling from the Sky" from the TV series Mayday (Air Emergency, Air Crash Investigation) [documentary TV series].
  3. 1 2 3 4 5 6 Job, Macarthur (1994). Air Disaster Volume 2. pp. 96–107.
  4. "When volcanic ash stopped a Jumbo at 37,000ft". BBC News. 15 April 2010.
  5. Armstrong, Paul (16 April 2010). "Explainer: Why ash cloud endangers aircraft". CNN.
  6. Stewart, Stanley (2002). Emergency: Crisis on the Flight Deck (2nd ed.). The Crowood Press. ISBN 978-1-84037-393-6.
  7. Tootell, Betty (1985). All four engines have failed. London: André Deutsch. ISBN 978-0-23397-758-4.
  8. "Galunggung, Java, Indonesia". Darwin Volcanic Ash Advisory Centre. Australian Bureau of Meteorology. Retrieved 8 June 2009.
  9. "No. 49375". The London Gazette (Supplement). 10 June 1983. p. 28.
  10. Brennan, Zoe (27 January 2007). "The story of flight 009 and the words every passenger dreads..." The Daily Mail. London.
  11. Tootell, Betty (2 July 2007). "All Engines Failed!". Mature Times. Archived from the original on 24 January 2009. Retrieved 8 September 2007.
  12. Malavita, G. "G-BDXH European Aircharter Boeing 747-200". PlaneSpotters.net. Retrieved 4 August 2017.
  13. "Jumbo push over greenhouse gases". BBC News Scotland. 7 April 2010.
  14. "Flaps Podcast Episode 1" (Interview). July 2010. Retrieved 8 April 2015.
  15. "Falling From the Sky". Mayday. Season 4. 2007. Discovery Channel Canada / National Geographic Channel.
  16. Witkin, Richard (16 December 1989). "Jet Lands Safely After Engines Stop in Flight Through Volcanic Ash". The New York Times.

Bibliography

  • Faith, Nicholas (1998). Black Box. Boxtree. ISBN 0-7522-2118-3.
  • Job, Macarthur (1994). Air Disaster Volume 2. Aerospace Publications. pp. 96–107. ISBN 1-875671-19-6.
  • Tootell, Betty (1985). All Four Engines Have Failed. André Deutsch. ISBN 0-233-97758-9.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.