Improving Runway Pavement Friction Analysis through Innovative Modeling
Available runway friction has a significant impact on aircraft landing performance. This is especially noted when aircrafts are landing on wet or otherwise contaminated runways due to the reduced braking action, which has been well documented since the dawn of the jet aircraft age. In addition, according to International Air Transport Association (IATA) statistics, runway excursions contribute nearly a quarter of all the accidents and no trends show an obvious decrease of these accidents in the past few years. In order to prevent runway landing excursion accidents and incidents, and enhance airport and airline operation safety, available runway friction should be studied. A good level of available runway friction is required for aircraft landing operations. With the presence of water film, snow, and ice, the available runway friction changes rapidly, and different measure devices provide results with a large variance on a uniform runway condition. According to the results of a survey of Canadian airline pilots in the Joint Winter Runway Friction Measurement Program, “Pilots indicated that the quality of runway friction information provided by airports varies between airports. Generally the quality is better at large airports, but each airport differs depending on various factors”. Because of the inconsistencies in runway friction measuring devices, it is better to analyze available runway friction based on aircraft measurements. In order to model the aircraft’s landing performance, a mechanistic-empirical aircraft landing deceleration equation has been developed. This equation incorporates all of the major forces that contribute to aircraft braking, and was calibrated and validated using digital flight data from dry runway aircraft landings. As a result, it is able to back calculate friction from the developed equations and evaluate the impacts of dry, wet, and contaminated runways on aircraft braking performance. The objectives of the paper are as follows: (1) Provide back ground knowledge regarding wet and contaminated runway aircraft braking; (2) Analyze aircraft braking performance on wet and contaminated runways using the built mechanistic-empirical aircraft landing deceleration equation; and (3) Study runway available braking friction under different conditions.
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Corporate Authors:
Federal Aviation Administration
800 Independence Avenue, SW
Washington, DC United States 20591 -
Authors:
- Zhang, Cheng
- Tighe, Susan L
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Conference:
- 2014 FAA Worldwide Airport Technology Transfer Conference
- Location: Galloway New Jersey, United States
- Date: 2014-8-5 to 2014-8-7
- Publication Date: 2014
Language
- English
Media Info
- Media Type: Digital/other
- Features: Figures; References; Tables;
- Pagination: 14p
- Monograph Title: 2014 FAA Worldwide Airport Technology Transfer Conference Proceedings: Innovations in Airport Safety and Pavement Technology
Subject/Index Terms
- TRT Terms: Aircraft operations; Airport runways; Braking performance; Dry weather; Friction; Landing; Wet weather
- Subject Areas: Aviation; Maintenance and Preservation; Pavements; Vehicles and Equipment; I60: Maintenance;
Filing Info
- Accession Number: 01538176
- Record Type: Publication
- Report/Paper Numbers: S10043
- Files: TRIS, ATRI, USDOT
- Created Date: Sep 25 2014 8:59AM