West Berlin Air Corridor Explained

During the Cold War era (1945–1991), the West Berlin air corridors, also known as the Berlin corridors and control zone, were three regulated airways for civil and military air traffic of the Western Allies between West Berlin and West Germany passing over East Germany's territory. The corridors and control zone were physically centered on and under control of the all-Allied Berlin Air Safety Center (BASC) in West Berlin. The airspace within these corridors was used by US, UK and French-registered non-combat aircraft belonging to these countries' armed forces and airlines operated by pilots holding those countries' passports. In addition, it was also used by LOT Polish Airlines for regular scheduled services from Warsaw to London and Paris via Schönefeld Airport to the south of East Berlin.[1]

History

The air corridors connected the three West Berlin airports of Tempelhof, Tegel and Gatowwith other airfields/airports. Each air corridor was only 20miles wide, while the circular-shaped control zone had a 20miles radius, making it 40miles in diameter; thus allowing aircraft room to maneuver for weather and takeoff and landing. Aircraft were compelled to fly at a maximum height of 100000NaN0.[2] [3] However, on occasion, the height restriction would be raised to 130000NaN0 in order to accommodate Soviet military exercises. Flight plans, for entry into an air corridor, were handled by the Berlin Air Safety Center (BASC), who in turn would coordinate with the Berlin Air Route Traffic Control Center (BARTACC).

Routes

Operating procedures

Contemporary air traffic control procedures prohibited overtaking in the air corridors to ensure a safe operating environment inside these narrow air lanes and to prevent aircraft from accidentally straying into East German airspace. This compelled jet aircraft crews to reduce their speed if the preceding aircraft was a slower-flying piston or turboprop plane. This in turn extended the jet's flying time inside the air corridor and resulted in higher operating costs due to increased fuel consumption at 10000-1NaN-1, especially on short-haul internal German services covering a maximum distance of 300miles.[4]

For commercial and operational reasons, the airlines had their flights routed through the centre corridor whenever possible as this was the shortest of the three air corridors, thereby minimising the time aircraft spent cruising at 10000feet. At such a low altitude, modern jet aircraft could not attain an efficient cruising speed. This extended flight times and increased fuel consumption. Therefore, use of the centre air corridor was the most economical option.

Accidents and incidents

Notes and citations

Notes
  • Citations
  • Further reading

    Notes and References

    1. http://www.flightglobal.com/pdfarchive/view/1969/1969%20-%200300.html Lufthansa through Berlin?, Air Transport ..., Flight International, 20 February 1969, p. 276
    2. http://www.flightglobal.com/PDFArchive/View/1972/1972%20-%202018.html BEA in Berlin, Air Transport, Flight International, 10 August 1972, p. 181
    3. the cruising altitude of propliners employed on the Berlin Airlift
    4. Aeroplane — The Battle of Berlin, Vol. 111, No. 2842, pp. 16/7, Temple Press, London, 7 April 1966
    5. http://aviation-safety.net/database/record.php?id=19480405-0 ASN Aircraft accident description Vickers 610 Viking 1B G-AIVP — RAF Gatow, Berlin, Germany
    6. http://aviation-safety.net/database/record.php?id=19520429-0 ASN Aircraft accident description Douglas C-54A-DO F-BELI – near Berlin, Germany
    7. http://aviation-safety.net/database/record.php?id=19661115-0 ASN Aircraft accident description Boeing 727-21 N317PA – near Dallgow, Germany
    8. Aeroplane, Safety — Berlin crash mystery, Vol. 116, No. 2968, p. 11, Temple Press, London, 4 September 1968
    9. http://www.flightglobal.com/pdfarchive/view/1968/1968%20-%201276.html 727 crash cause uncertain, Air Transport ..., Flight International, 18 July 1968, p. 92