基于多区组合煤体的煤与瓦斯突出动力学机制OA北大核心CSTPCD
Dynamic mechanisms of coal and gas outbursts based on a multi-zone combined coal model
煤与瓦斯突出(以下简称"突出")严重影响煤炭安全开采,其背后涉及的众多科学问题仍未解决.为降低煤体力学性质各向异性对突出研究的困扰,构建多区组合煤体模型;基于上覆岩层应力分布特征及应力波传播机制确定"弱区"煤体位置,将研究对象由"突出中心体"具体为"弱区".由于外部动载扰动是导致突出的激发条件,采用冲击试验研究应力波在层状组合煤岩体中的传播规律,构建组合煤岩体应力-应变本构模型.进而明确卸载波作用下,煤体轴向多层层裂是煤体质点内撞击形成加载冲击波在自由面反射形成拉应力波导致的;煤体径向平面,由于泊松效应形成卸载波追赶塑性加载波的情形,生成多个径向裂隙及环向裂隙,得到煤体层裂片厚度动态演化规律.从而明确在外部动载扰动下,煤体"弱区"最先破坏,轴向产生多层层裂、径向平面产生多个径向及环向裂隙的三维损伤路径.基于此,提出一种基于多区组合煤体的突出动力学机制,将突出划分为准备、启动、发展、终止四个阶段.突出准备阶段,煤体上覆岩层应力转移、集中,高瓦斯压力梯度形成,为后续煤体失稳破坏创造条件;突出启动阶段,煤体受外部动载扰动,轴向"弱区"煤体最先发生破坏、形成多层层裂,径向平面形成多个径向及环向裂隙;突出发展阶段,吸附态瓦斯解吸与游离态瓦斯积聚形成高压瓦斯抛出煤体,导致突出继续向深部煤体发展,形成二次损伤;突出终止阶段,积聚形成的瓦斯压力低于煤体抗拉强度,形成稳定的纺锤形突出腔体,突出终止.该机制初步解释了突出过程中"响煤炮""口小腔大"突出孔洞等动力现象成因,为矿井防突工作提供了新思路.
Coal and gas outbursts(hereafter referred to as outbursts)severely affect coal mining safety.However,many scientific problems underlying the outbursts remain unsolved.To minimize the influence of anisotropy in the mechanic-al properties of coals on research into outbursts,this study constructed a multi-zone combined coal model.Based on the stress distribution of overlying strata and the stress wave propagation mechanisms,this study located the weak zone of coals,shrinking the research object from the outburst center to the weak zone.Given that outbursts are triggered by the disturbance of external dynamic load,this study examined the propagation patterns of stress waves in layered multi-zone combined coals through impact tests and constructed a stress-strain constitutive model for the coals.Furthermore,it as-certained that under the action of unloading waves,the axial multi-layered spalling of coals resulted from the tensile stress waves formed by the reflection of loading shock waves,formed by impact within coal mass points,on the free sur-face.Within the radial plane of coals,unloading waves pursued plastic loading waves due to Poisson's effect,leading to the formation of multiple radial and circumferential fractures.Accordingly,this study derived the dynamic evolutionary patterns of the spalling thickness of coals and further defined the three-dimensional damage path of coals under the dis-turbance of external dynamic load.Specifically,the damage path consisted of the earliest destruction of the weak zone,multi-layered spalling in the axial direction,and the formation of multiple radial and circumferential fractures within the radial plane sequentially.Accordingly,this study proposed a dynamic mechanism of outbursts based on the multi-zone combined coal model,segmenting the outburst process into four stages:preparation,commencement,development,and termination.In the preparation stage,stress transfer and concentration in the overlying strata of coals result in a high gas pressure gradient,creating conditions for subsequent instability and failure of coals.In the commencement stage,coals in the axial direction within the weak zone are destroyed the earliest under the disturbance of external dynamic load,result-ing in multi-layered spalling and the formation of multiple radial and circumferential fractures within the radial plane.In the development stage,the desorption of adsorbed gas and the accumulation of free gas form high-pressure gas ejected from coals.As a result,outbursts expand toward the deep part,forming secondary damage.In the termination stage,the accumulated gas pressure is below the tensile strength of coals,leading to the formation of a stable spindle-shaped out-burst cavity,signaling outburst termination.This mechanism preliminarily accounts for the causes of dynamic phenom-ena like coal burst sound and outburst cavities with a small opening and a large body during outbursts,providing a novel philosophy for preventing outbursts in mines.
李峰;王琛琛;王博;荆亚东;闫正旭;张民波
中国矿业大学(北京) 应急管理与安全工程学院,北京 100083武汉工程大学兴发矿业学院,湖北 武汉 430205
矿山工程
煤与瓦斯突出多区组合煤体模型弱区应力波层裂突出动力学机制
coal and gas outburstmulti-zone combined coal modelweak zonestress wavespallingdynamic mechan-ism of outburst
《煤田地质与勘探》 2024 (005)
12-24 / 13
国家自然科学基金项目(52064046);中央高校基本科研业务费项目(2023ZKPYAQ03)
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