Direct-connected experimental investigation on a pulse detonation engine

Abstract: A pulse detonation engine with the inner diameter of 50 mm and total length of 1500 mm was designed. Gasoline was used as the fuel and air as the oxidizer. The Shchelkin spiral was used as the deflagration to detonation transition accelerator. The direct-connected test of the pulse detonation engine was conducted to find out the detonation initiation and propulsion performance at several different operating frequencies. The experimental results indicated that detonation waves were fully initiated in the pulse … Show more

“…Gaseous fuels will be more easily applied to PDE because of the easier mixing with oxidants [2][3][4][5], but their energy density is lower than that of liquid fuel; then, the application to PDEs is not that promising. Liquid fuel has now been the focus in this field [6,7]. Studies on spray detonation presented that PDE efficiency (check again!)…”

Experimental Study on Pulse Detonation Engine with Two-Phase Inhomogeneous Mixture

“…Gaseous fuels will be more easily applied to PDE because of the easier mixing with oxidants [2][3][4][5], but their energy density is lower than that of liquid fuel; then, the application to PDEs is not that promising. Liquid fuel has now been the focus in this field [6,7]. Studies on spray detonation presented that PDE efficiency (check again!)…”

Experimental Study on Pulse Detonation Engine with Two-Phase Inhomogeneous Mixture