Strategies for Choosing Descent Flight-Path Angles for Small Jets

Three candidate strategies for choosing the descent flight path angle (FPA) for small jets are proposed, analyzed, and compared for fuel efficiency under arrival metering conditions. The strategies vary in operational complexity from a universally fixed FPA, or FPA function that varies with descent speed for improved fuel efficiency, to the minimum-fuel FPA computed for each flight based on winds, route, and speed profile. Methodologies for selecting the parameter for the first two strategies are described. The differences in fuel burn are analyzed over a year’s worth of arrival traffic and atmospheric conditions recorded for the Dallas/Fort Worth (DFW) Airport during 2011. The results show that the universally fixed FPA strategy (same FPA for all flights, all year) burns on average 26 lbs more fuel per flight as compared to the minimum-fuel solution. This FPA is adapted to the arrival gate (direction of entry to the terminal) and various timespans (season, month and day) to improve fuel efficiency. Compared to a typical FPA of approximately 3 degrees, the adapted FPAs vary significantly, up to 1.3 degrees from one arrival gate to another or up to 1.4 degrees from one day to another. Adapting the universally fixed FPA strategy to the arrival gate or to each day reduces the extra fuel burn relative to the minimum-fuel solution by 27% and 34%, respectively. The adaptations to gate and time combined shows up to 57% reduction of the extra fuel burn. The second strategy, an FPA function, contributes a 17% reduction in the 26 lbs of extra fuel burn over the universally fixed FPA strategy. Compared to the corresponding adaptations of the universally fixed FPA, adaptations of the FPA function reduce the extra fuel burn anywhere from 15-23% depending on the extent of adaptation. The combined effect of the FPA function strategy with both directional and temporal adaptation recovers 67% of the extra fuel relative to the minimum-fuel solution.

• Record URL:
  http://www.aviationsystemsdivision.arc.nasa.gov/publications/2012/AIAA-2012-4817.pdf
• 
• Corporate Authors:

  National Aeronautics and Space Administration

  Ames Research Center
  Moffett Field, CA  United States  94035
• Authors:
  • Wu, Minghong G
  • Green, Steven M
• Publication Date: 2012-8

Language

• English

Media Info

• Media Type: Web
• Features: Figures; References; Tables;
• Pagination: 26p

Subject/Index Terms

• TRT Terms: Approach; Burning rate; Descent; Flight paths; Fuel consumption; Jet propelled aircraft; Methodology; Small aircraft; Vehicle trajectories
• Identifier Terms: Dallas-Fort Worth International Airport
• Subject Areas: Aviation; Operations and Traffic Management; I72: Traffic and Transport Planning;

Filing Info

• Accession Number: 01479007
• Record Type: Publication
• Contract Numbers: NAS2-03144
• Files: TRIS
• Created Date: Apr 22 2013 9:44AM