基于碳同位素的朱集煤矿首采工作面层瓦斯来源定量分析方法
Quantitative Analysis Method of Gas Source in the First Mining Face of Zhuji Coal Mine Based on Carbon Isotope
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摘要: 通过多次分煤层采取地面钻孔中抽采气体的样品,测试母本气体样品的组分和碳同位素值,根据质量守恒和体积比,并从碳同位素的定义出发,提出矿井开采过程中识别源的方法,建立二元线性混合瓦斯分源计算模型,分析某矿地面钻井、井下采空区密闭墙、底抽巷回风等不同方式抽采的混合气体中,来源于11-2和13-1煤层中瓦斯的贡献比率,并分析采矿因素、自然因素和地质条件等对来源比率的影响。结果发现,该方法可成功运用于地面抽采钻井、采空区密闭墙、底抽巷回风等不同地点混合瓦斯气体来源占比的动态识别,可准确反映各地点混合瓦斯来源占比的动态变化,误差可控制在0.5‰以内,研究同时发现混合瓦斯来源占比的大小主要受采样点的地理环境、工作面回采层位、距离回采煤层位置以及采空区等因素的影响。Abstract: According to the mass conservation and volume ratio, and the definition of carbon isotope, the method of identifying the source in the mining process is proposed, and the multi-source mixed gas source calculation model is built. The influence of mining factors, natural factors and geological conditions on the source ratio is analyzed by analyzing the contribution ratio of gas in 11-2 and 13-1 coal seams. After sampling and analyzing the calculated results, it is found that the method can be successfully applied to the dynamic identification of the mixture gas source ratio of the ground extraction drilling, the closed wall of the gob and the back air of the bottom lane, and can accurately reflect the dynamic change of the proportion of the mixed gas sources in various locations, and the error can be controlled within 0.5 per thousand. It is also found that the proportion of the mixture of gas sources is mainly influenced by the geographical environment of the sampling point, the mining level of the working face, the location of the coal seam in the coal seam and the gob.