A numerical study of the pyrolysis effect on autoignited laminar lifted dimethyl ether jet flames in heated coflow air

Abstract: The liftoff, autoignition, and stabilization characteristics of autoignited laminar lifted dimethyl ether (DME) jet flames in heated coflow air are numerically investigated by varying the fuel jet velocity, U 0. The detailed numerical simulations are performed using the laminarSMOKE code with a 55-species detailed kinetic mechanism of DME oxidation. An unusual U-shaped liftoff height, H L , behavior under MILD combustion condition is observed from the simulations, which is qualitatively consistent with previou… Show more

“…Laminar lifted jet flames have been extensively investigated as a building-block configuration in understanding the stabilization mechanisms of turbulent lifted jet flames in many practical devices such as gas turbine combustors, diesel engines, and utility boiler burners [1][2][3][4][5][6][7][8][9][10][11][12]. A laminar lifted jet flame usually exhibits a tribrachial (or triple) flame structure consisting of lean and rich premixed flame wings and a trailing diffusion flame between them, all of which originate from the tribrachial edge [1][2][3][4][5][6].…”

“…𝑆 e is generally affected by mixture concentration gradient, mixture strength, flame curvature, and Lewis number, while 𝑈 L by jet momentum, flow redirection, and buoyancy. If even one of such flame and flow characteristics is changed, the lifted flame moves to another stabilization point or could start to oscillate [5,[7][8][9][10][11][12].…”

On the oscillating flame characteristics in nonpremixed laminar coflow-jets: An experimental and numerical study

“…Laminar lifted jet flames have been extensively investigated as a building-block configuration in understanding the stabilization mechanisms of turbulent lifted jet flames in many practical devices such as gas turbine combustors, diesel engines, and utility boiler burners [1][2][3][4][5][6][7][8][9][10][11][12]. A laminar lifted jet flame usually exhibits a tribrachial (or triple) flame structure consisting of lean and rich premixed flame wings and a trailing diffusion flame between them, all of which originate from the tribrachial edge [1][2][3][4][5][6].…”

“…𝑆 e is generally affected by mixture concentration gradient, mixture strength, flame curvature, and Lewis number, while 𝑈 L by jet momentum, flow redirection, and buoyancy. If even one of such flame and flow characteristics is changed, the lifted flame moves to another stabilization point or could start to oscillate [5,[7][8][9][10][11][12].…”

On the oscillating flame characteristics in nonpremixed laminar coflow-jets: An experimental and numerical study

Experimental and Numerical Study of Non-Premixed Dimethyl Ether/Methane-Air Hot Flame at Elevated Pressures

Lift-off behaviors of the partially-premixed jet flame in a supersonic vitiated coflow