多种材质障碍物对甲烷-氢气预混燃气的促爆影响

Effect of Various Material Obstacles on the Promoting Explosion of Methane-Hydrogen Premixed Gas

选取3种不同弯曲强度障碍物进行氢气-甲烷混合气体爆炸影响实验研究,以探究不同环境下的促爆危险性。实验过程中采集爆炸管道内火焰图像以及上下游压力。通过分析火焰图像以及爆炸压力数据后发现,爆炸后膨胀燃气推动流场加速在障碍物后方产生涡流,流场在不同材质障碍物后产生不同的涡流强度,导致燃气后期火焰峰值速度差异以及管道内爆炸超压差异。实验证明了促爆强度与障碍物材质的相关性。在本研究中,促爆强度与障碍物弯曲强度成正比,在氢气加入后,燃气基础反应加快,3种材质障碍物管道内爆炸压力峰值开始产生明显差异。通过上述结果可以得出,环境内障碍物以及粗糙壁面会影响燃气促爆效果,由于材料本身特性影响而产生差异,并且这种差异受燃气自身燃烧速率的影响。

Three obstacles with different levels of bending strength was selected for experimental research on the impact of hydrogen-methane mixed gas explosions in order to explore the varying environmental hazards of explosion promotion.During the experiment,the images of the flame in the explosion pipeline and the upstream and downstream pressure were collected.Through the analysis of flame images and explosion pressure data,the flow field accelerated by expanding gas after explosion generates eddy currents behind obstacles,and the flow field produces different eddy currents behind obstacles of different materials,which result in the difference of peak flame velocity of gas in the later stage and the difference of explosion overpressure in pipelines.This proves the correlation between the intensity of promoting explosions and the material of obstacles.In the experiments conducted in this paper,there is a proportional relationship between the intensity of promoting explosions and the bending strength of the obstacle.Moreover,after hydrogen was added,the reaction of the gas base was accelerated and the peak explosion pressure in the obstacle pipes of the three materials began to produce obvious differences.It can be concluded that obstacles and rough walls in the environment will affect the gas explosion effect,and the difference is caused by the characteristics of the material itself,and the difference is affected by the combustion rate of the gas itself.