煤炭工程
煤炭工程
매탄공정
COALMINE DESIGN
2009年
7期
75-78
,共4页
深部开采%巨厚煤层%FLAC3D%冲击矿压
深部開採%巨厚煤層%FLAC3D%遲擊礦壓
심부개채%거후매층%FLAC3D%충격광압
deep mining%ultra thick seam%FLAC3D%pressure bump
针对千秋煤矿21201工作面高地应力、巨厚、易燃复杂地质条件下冲击矿压频发的现状,采用FLAC3D软件模拟了工作面超前支承应力与相邻工作面采空区侧向支承应力叠加后形成动态应力场的变化规律.结果表明,在工作面前方局部区域产生3.3倍于原岩应力的垂直集中应力,在较高的动态集中应力作用下,煤体聚集了大量的弹性能,且该区域附近形成变化较大的错动剪应力,一定程度上加剧煤体破坏而引发冲击矿压.
針對韆鞦煤礦21201工作麵高地應力、巨厚、易燃複雜地質條件下遲擊礦壓頻髮的現狀,採用FLAC3D軟件模擬瞭工作麵超前支承應力與相鄰工作麵採空區側嚮支承應力疊加後形成動態應力場的變化規律.結果錶明,在工作麵前方跼部區域產生3.3倍于原巖應力的垂直集中應力,在較高的動態集中應力作用下,煤體聚集瞭大量的彈性能,且該區域附近形成變化較大的錯動剪應力,一定程度上加劇煤體破壞而引髮遲擊礦壓.
침대천추매광21201공작면고지응력、거후、역연복잡지질조건하충격광압빈발적현상,채용FLAC3D연건모의료공작면초전지승응력여상린공작면채공구측향지승응력첩가후형성동태응력장적변화규률.결과표명,재공작면전방국부구역산생3.3배우원암응력적수직집중응력,재교고적동태집중응력작용하,매체취집료대량적탄성능,차해구역부근형성변화교대적착동전응력,일정정도상가극매체파배이인발충격광압.
According to the rock bumping frequently occurred status under the high stress, ultra thick seam, spontaneous combustion complicated geological conditions in 21201 coal mining face of Qianqiu Mine, the FLAC3D software was applied to simulate the variation law of the dynamic stress field formed by the pilot support stress of the coal mining face plus with side support stress of the goaf of the adjacent coal mining faces.The results showed that there was a vertical concentrated stress 3.3 times of the original rock stress occurred in the front area of the coal mining face.Under the function of the high dynamic concentrated stress, the coal body would accumulate great elastic energy and a large variation displacement shearing stress would be formed near that area.Therefore the coal body failed in certain degree could cause the rock bumping.