This study investigates the impact of employing single-aisle aircraft with reduced design range on airline operations and the dynamics of fleet composition. While previous research has mostly evaluated such concepts at a single aircraft level, the fleet-level implications remain less clear. Here, a linear programming model for mid- to long-term airline fleet planning optimizes fleet composition, fleet development, and fleet deployment within a 10-year planning horizon for a given set of candidate aircraft. The model takes into account network development, operational and cost data, existing fleet, and the availability of aircraft and capital. This study uses data for a major European network airline; the results suggest that introducing aircraft with a design range of ~1,500 km to the existing fleet would be optimal in terms of airline economic performance. The new reduced-range aircraft would partly replace existing aircraft with longer design ranges, but the replacement would span over the entire planning horizon. Savings in variable cash operating costs of ~3% would offset financial penalties due to a lower fleet commonality.
Impact of single-aisle aircraft with reduced design range on airline operations and dynamics of fleet composition
Journal of Aerospace Operations ; 2 , 3-4 ; 99-113
01.01.2013
15 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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