South African Airways Flight 228

South African Airways Flight 228 was a scheduled flight from Johannesburg, South Africa, to London, England. The plane operating the flight, which was only six weeks old, flew into the ground soon after take-off after a scheduled stopover in Windhoek, South West Africa (present day Namibia) on 20 April 1968.[1] Five passengers survived, while 123 people died. The subsequent investigation determined that the accident was attributable largely to pilot error; the manufacturer subsequently also recognised the lack of a ground proximity warning system in its aircraft. The accident is the deadliest aviation accident to date in Namibia.[1]

South African Airways Flight 228
A South African Airways Boeing 707-344C, similar to the accident aircraft
Accident
Date20 April 1968
SummaryControlled flight into terrain
Site5.3 km (3.3 mi) east of Strijdom International Airport, Windhoek, South West Africa
22°26′58″S 17°32′02″E
Aircraft
Aircraft typeBoeing 707-344C
Aircraft namePretoria
OperatorSouth African Airways
RegistrationZS-EUW
Flight originJan Smuts Int'l Airport, Johannesburg, South Africa
1st stopoverStrijdom Int'l Airport, Windhoek, South West Africa
2nd stopoverPresidente Craveiro Lopes Airport, Luanda, Angola
3rd stopoverGando Airport, Las Palmas, Canary Islands
4th stopoverFrankfurt Airport, Frankfurt am Main, West Germany
DestinationHeathrow Airport, London, England
Passengers116
Crew12
Fatalities123
Survivors5

History of the flight

South African Airways Flight 228 was a scheduled flight of the Boeing 707-320C Pretoria, registration ZS-EUW, from Jan Smuts International Airport, Johannesburg, to Heathrow Airport via Windhoek, Luanda, Las Palmas, and Frankfurt. Flight 228 was piloted by Captain Eric Ray Smith (49), with First Officer John Peter Holliday (34), Relief First Officer Richard Fullarton Armstrong (26), Flight Navigator Harry Charles Howe (44), and Flight Engineer Phillip Andrew Minnaar (50).

The first leg of the flight from Johannesburg to JG Strijdom Airport, Windhoek, South West Africa, was uneventful. An additional 46 passengers embarked in Windhoek, and some airfreight was unloaded and loaded.[2] The aircraft took off from Windhoek on runway 08 at 18:49 GMT (20:49 local time). It was a dark, moonless night with few, if any, lights on the ground in the open desert east of the runway; the aircraft took off into what was described in the official report as a "black hole".[3] The aircraft initially climbed to an altitude of 650 feet (198 m) above ground level, then leveled off after 30 seconds and started to descend.

Crash site of SA228 near Windhoek

Fifty seconds after take-off, it flew into the ground in flight configuration at a speed of approximately 271 knots (502 km/h; 312 mph). The four engines, which were the first parts of the aircraft to touch the ground, created four gouges in the soil before the rest of the aircraft also hit the ground and broke up. Two fires immediately broke out when the aircraft's fuel tanks ignited. Although the crash site was only 5,327 metres (17,477 ft) from the end of the runway, emergency services took 40 minutes to reach the scene because of rugged terrain. Nine passengers who were seated in the forward section of the fuselage initially survived, but two died soon after the accident, and another two a few days later, leaving a final death toll of 123 passengers and crew.[3]

Investigation

Map of Namibia
Map of Namibia
Accident
Namibia

The investigation was complicated by the fact that the aircraft did not have a flight data recorder or cockpit voice recorder;[4] the devices became mandatory from 1 January 1968, but the airline's inability to procure recorders meant that several SAA aircraft, including ZS-EUW, did not yet have the equipment fitted.[3] Captain Smith had 4,608 flying hours on the Boeing 707, but only one hour (which was in training) on the new type 344C.[5] The official investigation concluded that the aircraft and its four engines were in working order— primary fault lay with the captain and first officer, as they "failed to maintain a safe airspeed and altitude and a positive climb by not observing flight instruments during take-off"; no blame was attributed to the third pilot, whose responsibility it was to monitor the radio, and who was unable to monitor the flight instruments from his position in the cockpit.[2] Secondary factors that may have contributed to the accident included:

  • Loss of situational awareness
  • The crew had no visual reference in the dark, leading to spatial disorientation.
  • The crew used a flap retraction sequence from the 707-B series which removed flaps in larger increments than desirable for that stage of the flight, leading to a loss of lift at 600 ft (180 m) above ground level.
  • Temporary confusion on the part of the pilots when reading the vertical speed indicator, which was different from the A and B series of the aircraft to which they were accustomed.
  • The drum-type altimeter fitted to the aircraft, was notoriously difficult for pilots to read;[6][7] the crew may have misread their altitude by 1,000 feet (305 m).
  • Flight deck distraction as the result of a bird strike or other minor occurrence.

After investigating this accident, as well as a number of others that also involved controlled flight into terrain, the Federal Aviation Administration determined that a ground proximity warning system would have helped prevent some of the accidents. New regulations were therefore introduced from February 1972 requiring all turbojet aircraft to be fitted with the system.[8]

See also

References

  1. Ranter, Harro (April 1968). "Boeing 707-344C Accident". Aviation Safety Network. Archived from the original on 6 June 2011. Retrieved 16 January 2011.
  2. Haine, Edgar A. (2000). Disaster in the Air. Associated University Presses. ISBN 0-8453-4777-2. Archived from the original on 20 April 2023. Retrieved 25 September 2016.
  3. Report by the Board of Inquiry into the Accident to South African Airways Boeing 707-344C Aircraft ZS-EUW at Windhoek on 20 April 1968 (PDF) (Report). Pretoria. November 1968. Archived from the original (PDF) on 29 September 2011. Retrieved 12 August 2011.
  4. Alhadeff, Vic (1985). A newspaper history of South Africa, Volume 1984. p. 112. ISBN 1-86806-008-X. Archived from the original on 20 April 2023. Retrieved 25 September 2016.
  5. "Aerospace Medicine". Aerospace Medicine. Aerospace Medical Association. 44 (5–8): 683. 1973. Archived from the original on 20 April 2023. Retrieved 25 September 2016.
  6. Barlay, Stephen (1969). Aircrash detective: The Quest for Aviation Safety: An International Report. Hamilton. ISBN 9780241015087. Archived from the original on 20 April 2023. Retrieved 25 September 2016.
  7. "FSF CFIT Task Force Aircraft Equipment Team: Final Report" (PDF). Federal Aviation Authority. 23 January 1997. p. 17. Archived (PDF) from the original on 22 October 2012. Retrieved 23 January 2011.
  8. Power-Waters, Brian (2001). Safety last: The Dangers of Commercial Aviation : An Indictment by an Airline Pilot. iUniverse. p. 150. ISBN 0-595-18693-9. Archived from the original on 26 March 2022. Retrieved 25 September 2016.
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