摘要
为了更好地将液态CO2相变致裂技术应用到煤层增透领域中,达到经济快速消突的目的,通过理论对致裂过程进行了分析,将致裂过程分成冲击波作用和高压气体作用过程。并根据气体力学和断裂力学理论建立了致裂的力学方程,计算得到了十三矿致裂影响半径为8.2m,同时通过现场试验验证了计算得到的影响半径是准确的,为液态CO2相变致裂技术在增透消突机制、技术参数等方面的研究奠定了基础。
In order to make liquid CO2phase-transforming fracturing technology economical and efficient in antireflection zone,the crack initiation process is analyzed,and the mechanical equation is established based on gas mechanics and fracture mechanics. According to calculation result,the radius of influence in the No. 13 coal mine is 8. 2m,the results are verified in field tests. This study lays foundation for the permeability increment and outburst risk elimination mechanism of liquid CO2phase-transforming fracturing,and the technical parameter study.
出处
《煤炭工程》
北大核心
2016年第9期95-97,101,共4页
Coal Engineering
基金
国家自然科学基金资助项目(51274090)
河南省协同创新项目(15131319)
关键词
液态CO2
致裂机理
煤层增透
影响半径
liquid CO2
fracturing mechanism
coal seam permeability increment
influence radius