岩石力学与工程学报
巖石力學與工程學報
암석역학여공정학보
CHINESE JOURNAL OF ROCK MECHANICS AND ENGINEERING
2013年
5期
960-965
,共6页
采矿工程%煤与瓦斯突出%三维应力%分选性%波动性
採礦工程%煤與瓦斯突齣%三維應力%分選性%波動性
채광공정%매여와사돌출%삼유응력%분선성%파동성
mining engineering%coal and gas outburst%tridimensional stresses%sorting feature%wave character
煤与瓦斯突出实质是开采扰动下含瓦斯煤体在三维应力作用下突然发生的力学失稳破坏,严重威胁着煤矿安全生产.以典型高瓦斯矿井—阜新孙家湾煤矿突出煤粉压制而成的型煤为研究对象,利用自主研制的煤与瓦斯突出仪,进行煤层埋深-600 m,在轴压、围压、孔隙压三维应力条件下煤与瓦斯突出模拟试验,以探求煤与瓦斯突出规律.试验再现煤与瓦斯突出孔洞口小腔大、突出煤粉分布具有分选性等突出特征现象,验证煤与瓦斯突出模拟仪的可靠性.通过对试验结果分析,划分6个突出区域,得到以下新认识:突出煤粉质量分布具有区域性特征,存在煤粉质量极值区和均值区.突出试验现象表现为瓦斯–煤气固两相射流特征,为引入射流理论研究煤与瓦斯突出机制提供新思路.突出煤粉量极大值区域位于突出中远区,是瓦斯–煤气固两相射流突出破坏能量的耗散阶段区域.不同粒径突出煤粉分布具有明显的波动分布特性.煤粉质量极大值区以较小粒径煤粉为主,煤粉质量极小值区以较大粒径煤粉为主,突出末端区域以较小粒径煤粉为主.指出高压瓦斯是突出发生的动力源和煤体粉碎粉化的破坏源,煤与瓦斯突出能量释放具有波动性特征.试验结论对煤与瓦斯突出的机制认识具有重要参考价值.
煤與瓦斯突齣實質是開採擾動下含瓦斯煤體在三維應力作用下突然髮生的力學失穩破壞,嚴重威脅著煤礦安全生產.以典型高瓦斯礦井—阜新孫傢灣煤礦突齣煤粉壓製而成的型煤為研究對象,利用自主研製的煤與瓦斯突齣儀,進行煤層埋深-600 m,在軸壓、圍壓、孔隙壓三維應力條件下煤與瓦斯突齣模擬試驗,以探求煤與瓦斯突齣規律.試驗再現煤與瓦斯突齣孔洞口小腔大、突齣煤粉分佈具有分選性等突齣特徵現象,驗證煤與瓦斯突齣模擬儀的可靠性.通過對試驗結果分析,劃分6箇突齣區域,得到以下新認識:突齣煤粉質量分佈具有區域性特徵,存在煤粉質量極值區和均值區.突齣試驗現象錶現為瓦斯–煤氣固兩相射流特徵,為引入射流理論研究煤與瓦斯突齣機製提供新思路.突齣煤粉量極大值區域位于突齣中遠區,是瓦斯–煤氣固兩相射流突齣破壞能量的耗散階段區域.不同粒徑突齣煤粉分佈具有明顯的波動分佈特性.煤粉質量極大值區以較小粒徑煤粉為主,煤粉質量極小值區以較大粒徑煤粉為主,突齣末耑區域以較小粒徑煤粉為主.指齣高壓瓦斯是突齣髮生的動力源和煤體粉碎粉化的破壞源,煤與瓦斯突齣能量釋放具有波動性特徵.試驗結論對煤與瓦斯突齣的機製認識具有重要參攷價值.
매여와사돌출실질시개채우동하함와사매체재삼유응력작용하돌연발생적역학실은파배,엄중위협착매광안전생산.이전형고와사광정—부신손가만매광돌출매분압제이성적형매위연구대상,이용자주연제적매여와사돌출의,진행매층매심-600 m,재축압、위압、공극압삼유응력조건하매여와사돌출모의시험,이탐구매여와사돌출규률.시험재현매여와사돌출공동구소강대、돌출매분분포구유분선성등돌출특정현상,험증매여와사돌출모의의적가고성.통과대시험결과분석,화분6개돌출구역,득도이하신인식:돌출매분질량분포구유구역성특정,존재매분질량겁치구화균치구.돌출시험현상표현위와사–매기고량상사류특정,위인입사류이론연구매여와사돌출궤제제공신사로.돌출매분량겁대치구역위우돌출중원구,시와사–매기고량상사류돌출파배능량적모산계단구역.불동립경돌출매분분포구유명현적파동분포특성.매분질량겁대치구이교소립경매분위주,매분질량겁소치구이교대립경매분위주,돌출말단구역이교소립경매분위주.지출고압와사시돌출발생적동력원화매체분쇄분화적파배원,매여와사돌출능량석방구유파동성특정.시험결론대매여와사돌출적궤제인식구유중요삼고개치.
In fact,coal and gas outburst is mechanical destabilization and damage to gassy coal induced by mining under tridimensional stresses,seriously threatening safe production for coal mine. Taking the moulding coal powders of typical high-gassy coal mines,Sunjiawan coal mines in Fuxin as research object,the experiments of coal and gas outburst were made to detect rule by home-made device under tridimensional stresses including axial pressure,confining pressure and pore pressure to simulate -600 m mining. The outburst features were reproduced such as that the size of jet mouth is smaller than the radius of jet hole and the distribution of jet coal powders has sorting feature. The reliability of device was verified. According to the results,six outburst zones were divided and new understandings were presented. The mass distribution of coal powders had zone feature and existed extremal zone and mean zone. A new idea was presented to study outburst mechanism based on the jet features of gas-coal two-phase reflected in experiments. The maximum zone of mass of coal powders was located in medium long zone which was the energy dissipation zone of jet outburst of gas-solid two-phase gassy coal. The remarkable wave character was observed by the distribution of coal powders on different particle sizes. The coal powders of smaller size were main part in maximum zone of mass. The coal powders of rather large size were main part in minimum zone of mass. The coal powders of smaller size were main part in the ending of outbursting zone. It was presented that high-pressure gas is not only outbursting power but also damage power for powdered coal. The energy releasing has wave character in the process of coal and gas outburst. The conclusions can offer references to mechanism understanding of coal and gas outburst.
