静电场对煤放散瓦斯特性影响的实验研究

研究静电场作用下含瓦斯煤体的放散特性和致因机理，结果表明：静电场主要影响了Δp的45～60 s的放散过程；放散初速度随着电压的升高而变大（变小），在某一特征电压下达到最大值，其后逐渐趋近平缓；特征电压累计加电时，Δp呈现上下波动中趋大（趋小）的现象，在撤掉电场时Δp并未回落至初始值，并保持一定的时间记忆效应，可能使煤体发生了塑性损伤。其机理是静电场使得煤表面的吸附势阱深度增加和电负性增强两者相互竞争的结果。

Experimental research of the influence of static electric field on the characteristics of coal gas emission

Under the action of the electrostatic field,the mechanisms of causation and diffuse properties of coal contained gas were studied.The results show that the methane diffusion process between 45 and 60 s is the main effect of the electrostatic field.The initial speed of methane diffusion goes up as voltage rise,and reaches a maximum in a certain voltage,then approaches the gentle by gradually.The value of the initial speed of methane diffusion(Δp) is presented the tendency of increase in fluctuated up and down by the certain accumulative voltage.It can not drop back to initial value when closes electrostatic field.This memory effect maintaines a certain amount of time,may be due to the electrostatic field which makes coal plastic damage to happen.The cause of the phenomenon and mechanism is the change and competing between adsorption potential and electronegativity.