The impacts of rising temperatures on aircraft takeoff performance

TitleThe impacts of rising temperatures on aircraft takeoff performance
Publication TypeJournal Article
Year of Publication2017
AuthorsCoffel, Ethan, Thompson Terence R., and Horton Radley M.
JournalClimatic Change
Volume144
Issue2
Pagination381 - 388
Date PublishedJan-09-2017
ISSN0165-0009
Keywordsaircraft, airports, climate change
Abstract

Steadily rising mean and extreme temperatures as a result of climate change will likely impact the air transportation system over the coming decades. As air temperatures rise at constant pressure, air density declines, resulting in less lift generation by an aircraft wing at a given airspeed and potentially imposing a weight restriction on departing aircraft. This study presents a general model to project future weight restrictions across a fleet of aircraft with different takeoff weights operating at a variety of airports. We construct performance models for five common commercial aircraft and 19 major airports around the world and use projections of daily temperatures from the CMIP5 model suite under the RCP 4.5 and RCP 8.5 emissions scenarios to calculate required hourly weight restriction. We find that on average, 10–30% of annual flights departing at the time of daily maximum temperature may require some weight restriction below their maximum takeoff weights, with mean restrictions ranging from 0.5 to 4% of total aircraft payload and fuel capacity by mid- to late century. Both mid-sized and large aircraft are affected, and airports with short runways and high tempera- tures, or those at high elevations, will see the largest impacts. Our results suggest that weight restriction may impose a non-trivial cost on airlines and impact aviation operations around the world and that adaptation may be required in aircraft design, airline schedules, and/or runway lengths. 

URLhttp://www.theurbanclimatologist.com/uploads/4/4/2/5/44250401/coffeletal2017aviationtakeoff.pdf
DOI10.1007/s10584-017-2018-9
Short TitleClimatic Change