Fuel Benefit from Optimal Trajectory Assignment on the North Atlantic Tracks
The North Atlantic Tracks represent one of the highest density international traffic regions in the world. Due to the lack of high-resolution radar coverage over this region, the tracks are subject to more restrictive operational constraints than flights over the continental U.S. Recent initiatives...
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ftmit:oai:dspace.mit.edu:1721.1/102659 2023-06-11T04:14:21+02:00 Fuel Benefit from Optimal Trajectory Assignment on the North Atlantic Tracks Tran, Henry Hansman, R. John 2016-05-24 application/pdf http://hdl.handle.net/1721.1/102659 en_US eng ICAT;ICAT-2016-03 http://hdl.handle.net/1721.1/102659 fuel burn air transportation North Atlantic Electronic Flight Bag Technical Report 2016 ftmit 2023-05-29T07:29:59Z The North Atlantic Tracks represent one of the highest density international traffic regions in the world. Due to the lack of high-resolution radar coverage over this region, the tracks are subject to more restrictive operational constraints than flights over the continental U.S. Recent initiatives to increase surveillance over the North Atlantic has motivated studies on the total benefit potential for increased surveillance over the tracks. One of the benefits of increased surveillance is increased accessibility of optimal altitude and speed operations over the track system. For a sample of 4033 flights over 12 days from 2014-2015, a fuel burn analysis was performed that calculates the fuel burn from optimal altitude, optimal speed and optimal track trajectories over the North Atlantic Tracks. These results were compared with calculated as-flown fuel burn in order to determine the benefit potential from optimal trajectories. Operation at optimal altitude and speed increased this benefit to 2.83% reduction potential in average fuel burn. Operation at optimal altitude alone, however, reduces the benefit potential to 1.24% reduction in average fuel burn. Optimal track assignment allows for a 3.20% reduction in average fuel burn. For the sample data, 45.1% of flights were unable to access their optimal altitude and speed due to separation requirements. Reduced separation up to 5 nautical miles can decrease the number of conflicts to 14.0%. Reducing the separation requirements both longitudinally and laterally can allow for increased accessibility of optimal altitudes, speeds and track configurations. Pilot decision support tools that increase awareness of aircraft fuel performance by integrating optimal altitude and speed configurations can also reduce aircraft fuel burn. The utility of such a tool is evaluated through a survey on pilot-decision making. This work was funded by the US Federal Aviation Administration (FAA) Office of Environment and Energy as a part of ASCENT Project 15 under Air Force Contract ... Report North Atlantic DSpace@MIT (Massachusetts Institute of Technology) |
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fuel burn air transportation North Atlantic Electronic Flight Bag |
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fuel burn air transportation North Atlantic Electronic Flight Bag Tran, Henry Hansman, R. John Fuel Benefit from Optimal Trajectory Assignment on the North Atlantic Tracks |
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fuel burn air transportation North Atlantic Electronic Flight Bag |
description |
The North Atlantic Tracks represent one of the highest density international traffic regions in the world. Due to the lack of high-resolution radar coverage over this region, the tracks are subject to more restrictive operational constraints than flights over the continental U.S. Recent initiatives to increase surveillance over the North Atlantic has motivated studies on the total benefit potential for increased surveillance over the tracks. One of the benefits of increased surveillance is increased accessibility of optimal altitude and speed operations over the track system. For a sample of 4033 flights over 12 days from 2014-2015, a fuel burn analysis was performed that calculates the fuel burn from optimal altitude, optimal speed and optimal track trajectories over the North Atlantic Tracks. These results were compared with calculated as-flown fuel burn in order to determine the benefit potential from optimal trajectories. Operation at optimal altitude and speed increased this benefit to 2.83% reduction potential in average fuel burn. Operation at optimal altitude alone, however, reduces the benefit potential to 1.24% reduction in average fuel burn. Optimal track assignment allows for a 3.20% reduction in average fuel burn. For the sample data, 45.1% of flights were unable to access their optimal altitude and speed due to separation requirements. Reduced separation up to 5 nautical miles can decrease the number of conflicts to 14.0%. Reducing the separation requirements both longitudinally and laterally can allow for increased accessibility of optimal altitudes, speeds and track configurations. Pilot decision support tools that increase awareness of aircraft fuel performance by integrating optimal altitude and speed configurations can also reduce aircraft fuel burn. The utility of such a tool is evaluated through a survey on pilot-decision making. This work was funded by the US Federal Aviation Administration (FAA) Office of Environment and Energy as a part of ASCENT Project 15 under Air Force Contract ... |
format |
Report |
author |
Tran, Henry Hansman, R. John |
author_facet |
Tran, Henry Hansman, R. John |
author_sort |
Tran, Henry |
title |
Fuel Benefit from Optimal Trajectory Assignment on the North Atlantic Tracks |
title_short |
Fuel Benefit from Optimal Trajectory Assignment on the North Atlantic Tracks |
title_full |
Fuel Benefit from Optimal Trajectory Assignment on the North Atlantic Tracks |
title_fullStr |
Fuel Benefit from Optimal Trajectory Assignment on the North Atlantic Tracks |
title_full_unstemmed |
Fuel Benefit from Optimal Trajectory Assignment on the North Atlantic Tracks |
title_sort |
fuel benefit from optimal trajectory assignment on the north atlantic tracks |
publishDate |
2016 |
url |
http://hdl.handle.net/1721.1/102659 |
genre |
North Atlantic |
genre_facet |
North Atlantic |
op_relation |
ICAT;ICAT-2016-03 http://hdl.handle.net/1721.1/102659 |
_version_ |
1768392299809603584 |