Numerical Simulation of Hot Jet Detonation with Different Ignition Positions

Abstract: Ignition position is an important factor affecting flame propagation and deflagration-to-detonation transition (DDT). In this study, 2D reactive Navier–Stokes numerical studies have been performed to investigate the effects of ignition position on hot jet detonation initiation. Through the stages of hot jet formation, vortex-flame interaction and detonation wave formation, the mechanism of the hot jet detonation initiation is analyzed in detail. The results indicate that the vortexes formed by hot jet entrain … Show more

“…This book includes a series of seventeen research studies that reveal new knowledge about combustion and its application. The topics covered span many diverse areas associated with combustion including: fires [1][2][3], engines and applications [4][5][6][7][8][9][10][11][12][13][14][15], and acoustics [16,17].…”

Progress in Combustion Diagnostics, Science and Technology

“…This book includes a series of seventeen research studies that reveal new knowledge about combustion and its application. The topics covered span many diverse areas associated with combustion including: fires [1][2][3], engines and applications [4][5][6][7][8][9][10][11][12][13][14][15], and acoustics [16,17].…”

Progress in Combustion Diagnostics, Science and Technology

Numerical study on the deflagration to detonation transition promoted by transverse jet

Effects of mixture initial conditions on deflagration to detonation transition enhanced by transverse jets