Quirks & Quarks

How do high-flying airplanes get enough oxygen for their engines

Airplane engines are designed to efficiently extract oxygen out of thin air in order to keep them running at high altitudes.
Aircraft engines compress air to provide oxygen for combustion at high altitude (Tim Graham/Getty Images)
Listen2:23

This week's question comes to us from Terry Rowsell, in St.John's, Newfoundland. He asks:

Airplane engines need oxygen for combustion. But where do they get oxygen at 40,000 feet? 

Ghazal Geshnizjani, a research associate professor at the Waterloo Centre for Astrophysics at the University of Waterloo, explains that engines can concentrate the thin air to generate enough oxygen for combustion.

The resistance of the air is working against the airplane, and is trying to slow it down. At high altitude, there isn't much resistance because of the lack of oxygen. That makes it easier for the plane to fly, which means the engines don't need to push very hard to maintain high speeds.  

They do still need oxygen, though, even at for low power levels. Fortunately, aircraft engineers have designed engines that solve this dilemma. Jet engines compress the air internally, making it much thicker and providing adequate oxygen for combustion.


 

 

 

Comments

To encourage thoughtful and respectful conversations, first and last names will appear with each submission to CBC/Radio-Canada's online communities (except in children and youth-oriented communities). Pseudonyms will no longer be permitted.

By submitting a comment, you accept that CBC has the right to reproduce and publish that comment in whole or in part, in any manner CBC chooses. Please note that CBC does not endorse the opinions expressed in comments. Comments on this story are moderated according to our Submission Guidelines. Comments are welcome while open. We reserve the right to close comments at any time.