摘要
端帮开采技术有利于露天煤矿端帮、山坡露头及浅地表等处煤的开采,使用常规技术开采不经济,为最大限度地将露天矿端帮煤炭资源安全高效采出,结合特拉布拉露天煤矿端帮煤层地质条件,采用FLAC^(3D)软件模拟分析了不同煤柱宽度时塑性区发育特征。理论分析结合现场试验结果表明:确定了合理的公路下部煤柱宽度为1.7 m,公路外侧边坡下煤柱宽度为1.3 m。现场采用EBH132悬臂式掘进机进行了远程控制开采试验,人员工效为17.6 t/(工·d),端帮滞留煤炭资源采出率在67%以上,实现了露天矿端帮滞留煤炭资源安全高效开采。
A high wall mining technology would be favorable to mine retained coal in the high wall of the surface mine, outcrop on the hill-side, shallow seam and other seam uneconomic mined by the conventional technology. In order to maximally, safely and high efficiently excavate the coal resources in the high wall of the surface mine, in combination with the geological conditions of the seam in the highwall of Tela Bula Surface Mine, the FLAC3D software was applied to simulate and analyze the development features of the plastic zone when the coal pillar width was different. The theoretical analysis combined with the site experiment study showed that the rational coal pillar width under the road was determined to be 1.7 m and the coal pillar width under the slope at a side of the road was determined to be 1.3 m. The EBH132 boom type roadheader was applied to a remote controlled mining trial at the site. The results showed that the personnel working efficiency was 17.6 t/day per man,the recovery rate of the coal resources left in the highwall was over 67% and the safety and high efficient mining of the retained coal resources left in the high-wall of the surface mine was realized.
出处
《煤炭科学技术》
CAS
北大核心
2016年第11期42-46,共5页
Coal Science and Technology
基金
国家自然科学基金资助项目(51304202)
江苏省自然科学基金资助项目(BK20130190)
中央高校基本科研业务费专项资金资助项目(2015XKMS002)
关键词
浅埋煤层
端帮开采
煤柱稳定性
远程控制
安全高效开采
shallow depth seam
high wall mining
coal pillar stability
remote control
safety and high efficient mining
