[5] ZHU C J,LU Z G,LIN B Q,et al.Effect of variation in gas distribution on explosion propagation characteristics in coal mines[J].Mining Science and Technology,2010(4):516-519.
[6] WU M H,BURKE M P,SON S F,et al.Flame acceleration and the transition to detonation of stoichiometric ethylene/oxygen in microscale tubes[J].Proceedings of the Combustion Institute,2007,31(2):2429-2436.
[8] MAREMONTI M,RUSSO G,SALZANO E,et al.Numerical simulation of gas explosions in linked vessels[J].Journal of Loss Prevention in the Process Industries,1999,12(3):189-194.
[14] G Tomlin,D M Johnson,P Cronin,et al.The effect of vent size and congestion in large-scale vented natural gas/air explosions[J].Journal of Loss Prevention in the Process Industries,2015,35:169-181.
[15] GUO C W,SHAO H,JIANG S G,et al.Effect of low-concentration coal dust on gas explosion propagation law[J].Powder Technology,2020,367:243-252.
[16] ZHU Y F,WANG D M,SHAO Z L,et al.Investigation on the overpressure of methane-air mixture gas explosions in straight large-scale tunnels[J].Process Safety and Environmental Protection,2020,135(C):101-112.
[17] LI L L,WANG Y.Mechanical characteristics of partially premixed methane/air explosion in a small closed tube based on simulation technology[J].Energy Sources,Part A:Recovery,Utilization,and Environmental Effects,2020,42(10):1255-1267.
