This paper compares fuel consumption of descent trajectories from cruise altitude to meter fix when the required time of arrival is later than the nominal time of arrival at the meter fix. The required delay, which is the difference between the nominal and the required times of arrival, is achieved by either slowing down the aircraft in the cruise and descent phases or flying a longer route at a constant altitude. Performance models of ten different Boeing and Airbus aircraft, obtained from the Base of Aircraft Data, are employed for generating the results. It is demonstrated that the most fuel-efficient speed control strategy for absorbing delay is first reducing descent speed as much as possible and then reducing cruise speed. This is a common finding for all ten aircraft considered. For some aircraft, flying at a fixed flight path angle and constant Mach-calibrated-airspeed results in lower fuel consumption compared to standard descent at idle-thrust and constant Mach-calibrated- airspeed. Finally, for the cases examined, it is shown that executing a path stretch maneuver at cruise altitude and descent at a reduced speed is more fuel efficient than inserting an intermediate-altitude cruise segment.
Comparison of Fuel Consumption of Descent Trajectories Under Arrival Metering
Journal of Aircraft ; 53 , 6
2016-07-27
Miscellaneous
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English
Comparison of Fuel Consumption of Descent Trajectories Under Arrival Metering
Online Contents | 2016
|Comparison of Fuel Consumption of Descent Trajectories under Arrival Metering
British Library Conference Proceedings | 2012
|Comparison of Fuel Consumption of Descent Trajectories Under Arrival Metering
Online Contents | 2016
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