How Things Work - Afterburners
Jets get no kick from champagne, but a little fuel in the tailpipe...
- By Damond Benningfield
- Air & Space magazine, July 2007
An F/A-18 Hornet lights its afterburners to leap from the deck of the aircraft carrier USS Theodore Roosevelt. Airman Apprentice Nathan Laird, U.S. Navy
When a jet needs an extra kick to launch from an aircraft carrier, punch past Mach 1, or evade enemy weapons, it uses its afterburner.
Producing a big jolt of thrust—and dramatic flame—the afterburner is a simple design dating to World War II, when engineers in Germany, the United States, and elsewhere tinkered with ways to boost the thrust of underpowered jet engines without adding much weight.
Americans tested their first afterburning engine in 1943, and six decades later afterburners remain in use among the latest generation of U.S. warplanes, which can achieve supersonic cruise speeds without them but continue to rely on them for critical maneuvers.
A typical jet engine uses only about half the oxygen it ingests, leaving a large amount of potential energy. The afterburner, which is a long extension at the back of the engine, combines much of the remaining oxygen with jet fuel, squirted into the high-speed exhaust stream from the engine’s turbine, and ignites the mixture. The resulting blowtorch shoots through a nozzle at the back of the engine, providing a hard kick of extra thrust.
The size of the boost varies. The afterburners on the Olympus engines that powered the Concorde supersonic jet added only about 17 percent to that engine’s thrust.
For the engines that power modern fighters, the increase ranges from about 40 to 70 percent. One hallmark of an afterburning engine is inefficiency: Using it guzzles up to three times as much fuel, so pilots typically limit its use to a few minutes per mission.
Although the design of an afterburner is simple, it operates with extremely sensitive tolerances. Maintaining a stable flame is the first challenge, since ignition needs to occur within air racing from the engine’s turbine into the afterburner at several hundred feet per second.
“It’s like lighting a butane lighter when you’re sticking it out the window of your car and holding it behind the side mirror,” says Derk Philippona, an engineer with a fellowship at Pratt & Whitney, which produces several afterburner-equipped engines, including those for the U.S. Air Force’s F-22A Raptor.
Fuel enters through a series of small tubes—typically 10 or so—that form a ring around the engine. The fuel sprays from hundreds of tiny holes in the tubes into the air stream, where it’s ignited, usually by an electric sparking device.
Related topics: Jet Engines Jet Aircraft Military Aircraft Modern Aviation
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Comments (2)
Question - Was the Grumman FpF-5 Panther jet ever equipped with an afterburner ?
Posted by JOSEPH GORMLEY on December 7,2008 | 09:53 PM
in the march 09 issue ther's a picture of a Mig 29.On page 44 This is one of the most fantastic pictures I've ever seen. My compliments to you and the photographer. Just great!
Posted by benjamin landa on February 6,2009 | 10:00 PM