Scandinavian Airlines Flight 751

Scandinavian Airlines Flight 751

OY-KHO, the aircraft involved in the accident, pictured at Düsseldorf International Airport in June 1991.
Accident summary
Date 27 December 1991
Summary Double engine failure due to foreign object damage
Site Gottröra, Norrtälje Municipality, Sweden
59°46′06″N 018°07′55″E / 59.76833°N 18.13194°E / 59.76833; 18.13194Coordinates: 59°46′06″N 018°07′55″E / 59.76833°N 18.13194°E / 59.76833; 18.13194
Passengers 123
Crew 6
Injuries (non-fatal) 100
Fatalities 0
Survivors 129 (all)
Aircraft type McDonnell Douglas MD-81
Aircraft name Dana Viking
Operator Scandinavian Airlines System
Registration OY-KHO
Flight origin Stockholm Arlanda Airport
Stopover Copenhagen Airport
Destination Warsaw Chopin Airport

Scandinavian Airlines Flight 751 was a regularly scheduled Scandinavian Airlines passenger flight from Stockholm, Sweden, to Warsaw, Poland, via Copenhagen, Denmark. The McDonnell Douglas MD-81, registration OY-KHO, was piloted by Danish captain Stefan G. Rasmussen (44) and Swedish first officer Ulf Cedermark (34). On 27 December 1991, ice had collected on the wings' inner roots (close to the fuselage) before takeoff. It broke off and was blown/sucked into the engines as the aircraft became airborne on takeoff. After both engines failed, the pilots were forced to make an emergency landing in a field near Gottröra, Sweden. All 129 passengers and crew aboard survived.

The incident is known as the Gottröra crash (Swedish: Gottrörakraschen) or the Miracle at Gottröra (Swedish: Miraklet i Gottröra) in Sweden.

Aircraft

The aircraft was a McDonnell Douglas MD-81, registered OY-KHO, serial number 53003, line number 1844. It made its first flight on March 16, 1991, and was delivered soon after to SAS on April 10, 1991. At the time of the accident, the aircraft had only been in service for 9 months. It was fitted with two Pratt & Whitney JT8D low-bypass turbofan engines. [1]

Accident

The aircraft had arrived from Zürich the previous evening and was parked overnight at temperatures of around 0 to 1 °C. About 2,550 kilograms (5,620 lb) of flight-chilled very cold fuel remained in the wing tanks. Because of this, clear ice had formed on the upper side of the wings, but was not detected. The aircraft was de-iced with 850 litres (190 imp gal; 220 US gal) of de-icing fluid, but not checked afterwards for remaining ice by the de-icing personnel.[2]

At and shortly after liftoff, pieces of ice slammed onto the fans of both engines, deforming the fan blades sufficiently to disturb the airflow to the compressors. The disturbed airflow caused the compressors to stall and this in turn caused engine surge. Because the engines were not throttled down sufficiently, the surges continued. The high loads from repeated engine surges quickly led to the breakup of both engines.

From the pilot's point of view, after 25 seconds of flight, noise, bangs and vibrations caused by No. 2 engine (the right engine) being in surge were first noticed. The flight crew responded by throttling down a little, but an automatic system (ATR, Automatic Thrust Restoration) that had not been described to the flight crew by the Scandinavian Airlines System (SAS), simultaneously increased throttle as a response to increasing altitude. As a consequence, the engine surges continued. An SAS flight captain, Per Holmberg, who was on board as a passenger, noticed the problems early and hurried to the cockpit to assist the crew. Engine No. 1 (the left engine) surged 39 seconds later, and both engines failed at 76 and 78 seconds into flight, at an altitude of 980 metres (3,220 ft).

The pilot responded to the loss of both engines by pitching the aircraft down in a dive before leveling it, to try and have it glide the longest possible distance without stalling. The pilots requested a return to Arlanda and attempted the restart procedure,[3] but with the aircraft emerging from cloud cover at 270 metres (890 ft) altitude the pilot chose a field in the forest, near Vängsjöbergs säteri in Gottröra, Uppland, for an immediate emergency landing.

During the final descent the aircraft hit several trees, losing a large part of the right wing. It struck the ground tail-first, sliding along the field for 110 metres (360 ft), breaking into three parts before coming to a stop. Twenty-five people were injured, two of them seriously, but there were no fatalities. One of the reasons for the lack of fatalities was said to be the brace position that had been instructed by the flight attendants.[4] The tail cone of the plane broke off and the main landing gear of the plane dug marks on the field and sheared off. The plane's nose gear also broke off. The aircraft was determined to be damaged beyond repairs and was written off.

The flight crew, and especially Captain Rasmussen, were lauded for the skilled emergency landing in a fast-developing, potentially fatal situation. Rasmussen commented that "few civilian air pilots are ever put to a test of the skills they have acquired during training to this degree" and said he was proud of his crew and very relieved everyone had survived. He chose not to return to piloting commercial aircraft.

Investigation and recommendations

According to the official accident report by the Swedish Accident Investigation Board (SHK), the problem of clear ice formation in the wings in this type of aircraft was a well-known phenomenon at the time of the accident. From 1985 on McDonnell Douglas gave extensive information, including several "All Operators Letters" that dealt with the clear ice problem. In the "All Operators Letter" of 14 October 1986 operators were informed of how the Finnish airline Finnair had solved the problem of discovering clear ice. In 1988 and 1989 McDonnell Douglas arranged "Theme Conferences" dealing with clear ice formation. SAS took part in these conferences.[5]

On 26 October 1991, SAS distributed a "Flight Deck Bulletin/Winterization" to all pilots. It said: "It is the Pilot-in-Charge's responsibility to check the aircraft for any ice or snow that may affect performance" and on the section "Clear Ice" it noted, "Although the awareness within Line Maintenance is mostly good, the responsibility again rests with the Pilot-in-Charge that the aircraft is physically checked by means of a hands-on check on the upper side of the wing. A visual check from a ladder or when standing on the ground is not enough"[2]

Another contribution to the accident was insufficient training of the crew: they were not trained in restoring engine operation after they repeatedly surged.[6] There was no simulator or other training on the engine surging problem. Secondly, they were not informed about a pre-installed automatic thrust system (Automatic Thrust Restoration or ATR). The reason for this lapse of information was that there was no knowledge of ATR within SAS. However, ATR was described in manuals by the aircraft manufacturer which every operator is obliged to know. Even though the system was developed for use in procedures not applied by SAS, a sufficiently careful study of the manuals should have led to SAS noting the system and training its pilots in its function.[2]

The conclusion of the official accident report states:

The accident was caused by SAS' instructions and routines being inadequate to ensure that clear ice was removed from the wings of the aircraft prior to takeoff. Hence the aircraft took off with clear ice on the wings. In connection to lift-off, the clear ice disengaged and was sucked in by the engines. The ice caused damage to the engine fan stages, which led to engine surges, and these triggered irreparable engine failure. The pilots were not trained to identify and eliminate engine surging; furthermore, the Automatic Thrust Restoration system was not known by the pilots, nor noticed by the airline.

In the section "Compressor failures" the report states:

With sufficiently reduced thrust in the right engine and maintained thrust (not increased) in the left engine, the engines would probably not have failed. The aircraft would then have been able to return for landing.

However, the newly installed ATR prevented the pilots from successfully performing the normal remedial measure to halt compressor stall, i.e., throttling back the engines, as the ATR system – designed to prevent pilots using less than normal thrust when climbing out after take-off for noise abatement reasons – restored engine take-off power throttle settings in contrary to the pilots' reduced throttle commands. This effectively destroyed the engines, until eventually, they failed completely.

Dramatization

The story of the accident was featured on the tenth season of the Canadian TV series Mayday. The episode is entitled "Pilot Betrayed".

Notes

  1. "McDonnell Douglas MD-80/90 MSN 53003". Airfleets.net. Retrieved 3 September 2015.
  2. 1 2 3 "Air Traffic Accident on 27 December 1991 at Gottröra, AB county" (PDF) (Official accident report). Report C 1993:57. Case L-124/91. Swedish Accident Investigation Authority. 20 October 1993. Retrieved 3 September 2015.
  3. Cockpit Voice Recorder transcript for SK 751 Hosted at aviation-safety.net
  4. Damski, Anna. "Brace Position". Inflight Safety Page. Retrieved 21 January 2011.
  5. Official accident report, p. 61.
  6. Accident description at the Aviation Safety Network

References

External links

This article is issued from Wikipedia - version of the Thursday, December 31, 2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.