Pulse detonation engine

A pulse detonation engine (PDE) is a type of propulsion system that uses detonation waves to combust the fuel and oxidizer mixture.^[1]^[2]

The engine is pulsed because the mixture must be renewed in the combustion chamber between each detonation wave and the next. Theoretically, a PDE can operate from subsonic up to a hypersonic flight speed of roughly Mach 5. An ideal PDE design can have a thermodynamic efficiency higher than other designs like turbojets and turbofans because a detonation wave rapidly compresses the mixture and adds heat at constant volume. Consequently, moving parts like compressor spools are not necessarily required in the engine, which could significantly reduce overall weight and cost. Key issues for further development include fast and efficient mixing of the fuel and oxidizer, the prevention of autoignition, and integration with an inlet and nozzle.

As of May 2023^[update], no practical PDE has been put into production, but several testbed engines have been built and one was successfully integrated into a low-speed demonstration aircraft that flew in sustained PDE powered flight in 2008.

^ Kailasanath, K. (September 2000). "Review of Propulsion Applications of Detonation Waves". AIAA Journal. 38 (9): 1698–1708. Bibcode:2000AIAAJ..38.1698K. doi:10.2514/2.1156. Retrieved 28 November 2021.
^ Roy, G.D.; Frolov, S.M.; Borisov, A.A.; Netzer, D.W. (January 2004). "Pulse detonation propulsion: challenges, current status, and future perspective". Progress in Energy and Combustion Science. 30 (6): 545–672. doi:10.1016/j.pecs.2004.05.001. Retrieved 28 November 2021.

[1] Kailasanath, K. (September 2000). "Review of Propulsion Applications of Detonation Waves". AIAA Journal. 38 (9): 1698–1708. Bibcode:2000AIAAJ..38.1698K. doi:10.2514/2.1156. Retrieved 28 November 2021.

[2] Roy, G.D.; Frolov, S.M.; Borisov, A.A.; Netzer, D.W. (January 2004). "Pulse detonation propulsion: challenges, current status, and future perspective". Progress in Energy and Combustion Science. 30 (6): 545–672. doi:10.1016/j.pecs.2004.05.001. Retrieved 28 November 2021.

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