Runway safety

Runway safety is a term used to describe the potential for harm that could occur on a runway. There are a variety of factors that impact safety conditions on runways, though some analysts have proposed various methods of improving runway safety.

Definitions of runway accidents

Several terms fall under the flight safety topic of runway safety, including incursion, excursion, and confusion. Terms such as runway event or runway accident are used for such incidents.

Runway incursion

Runway incursion involves an aircraft, and a second aircraft, vehicle, or person. It is defined by ICAO and the U.S. FAA as "Any occurrence at an aerodrome involving the incorrect presence of an aircraft, vehicle or person on the protected area of a surface designated for the landing and take off of aircraft."^[1]^[2]

Runway excursion

Runway excursion is an incident involving only a single aircraft, where it makes an inappropriate exit from the runway. This can happen because of pilot error, poor weather, or a fault with the aircraft.^[3]

"Overrun" is a type of excursion where the aircraft is unable to stop before the end of the runway. An example is Air India Express Flight 812 in Mangalore, India in 2010. Further examples can be found in the overruns category. Runway excursion is the most frequent type of landing accident, slightly ahead of runway incursion.^[4] For runway accidents recorded between 1995 and 2007, 96% were of the 'excursion' type.^[4]

Confusion

Runway confusion is when a single aircraft makes "the unintentional use of the wrong runway, or a taxiway, for landing or take-off".^[5] Notable examples of a runway confusion incidents include Singapore Airlines Flight 006 and Comair Flight 5191.

Monitoring of runway safety

The U.S. FAA publishes an annual report on runway safety issues, available from the FAA website.^[2]^[6]^[7] New systems designed to improve runway safety, such as Airport Movement Area Safety System (AMASS) and Runway Awareness and Advisory System (RAAS), are discussed in the report. AMASS narrowly prevented a serious collision in the 2007 San Francisco International Airport runway incursion.

In the 1990s the U.S. FAA conducted a study about a civilian version of 3D military thrust vectoring to prevent jetliner catastrophes ^[8]

Some instruments for runway safety include ILS, LLWAS, Microwave landing system, Transponder landing system, as well as Runway Awareness and Advisory System.

Meteorological conditions

The term "runway condition" describes a runway's current status in relation to current meteorological conditions and air safety.

Dry: the surface of the runway is clear of water, snow or ice.
Damp: change of color on the surface due to moisture.
Wet: the surface of the runway is soaked but there are no significant patches of standing water.
Water patches: patches of standing water are visible.
Flooded: there is extensive standing water.

According to the JAR definition, a runway with water patches or that is flooded is considered to be contaminated.

References

↑ FAA Runway Safety webpage, Retrieved 2008-12-14.
1 2 FAA Runway Safety, Retrieved 2009-04-02
↑ FAA - Runway excursion
1 2 "Runway excursion Flight Safety Foundation" FlightGlobal.com, Retrieved 2008-12-14.
↑ http://www.flightglobal.com/articles/2008/03/14/222239/comment-safety-excursions.html "Safety Excursions", FlightGlobal.com, Retrieved 2008-12-15.
↑ Various runway safety reports
↑ Runway Safety Statistics
↑ “Multiaxis Thrust Vectoring Flight Control Vs Catastrophic Failure Prevention”, Reports to U.S. Dept. of Transportation/FAA, Technical Center, ACD-210, FAA X88/0/6FA/921000/4104/T1706D, FAA Res. Benjamin Gal-Or, Grant-Award No: 94-G-24, CFDA, No. 20.108, Dec. 26, 1994; "Vectored Propulsion, Supermanoeuvreability, and Robot Aircraft", by Benjamin Gal-Or, Springer Verlag, 1990, ISBN 0-387-97161-0, 3-540-97161-0.

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