综采工作面煤层注水防尘优化及效果研究
Study on seam water injection and dust control optimization and effect offully-mechanized coal mining face
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摘要: 为解决煤矿综采工作面粉尘浓度高的问题,以改善作业环境,以邢东矿1128综采工作面为研究背景,研究煤层注水防尘技术在综采工作面防尘方面的应用。基于煤体物理化学特性,分别测定纯水和质量分数为0.05%的润湿剂溶液与该工作面煤样的接触角及其自然饱和吸湿曲线,并对注水孔间距、注水压力以及封孔长度等工艺参数进行优化。对优化注水前后的煤体进行钻孔采样,采用Cline-Renka算法进行插值绘制全水分分布图,并考察割煤、移架工序降尘效率。研究表明:煤层注水中添加润湿剂可以有效降低煤水接触角,减少煤体达到饱和吸湿的时间,并增加煤体饱和吸水量,提高煤体润湿效果;优化注水后,两注水孔中间区域煤体平均全水分较原注水方案增加2.23%,润湿半径增加3.5 m;割煤工序中,全尘和呼吸性粉尘的平均降尘效率分别提高25.42%和26.39%;液压支架移架工序中,全尘和呼吸性粉尘的平均降尘效率分别提高23.39%和25.30%。Abstract: In order to solve the high dust density problem of the fully-mechanized coal mining face in the underground mine and to improve the operation environment, based on No. 1128 fully-mechanized coal mining face in Xingdong Mine as the study background, a study was conducted on the application of the seam water inject technology to the dust prevention of the fully-mechanized coal mining face. Based on the physical and chemical characteristics of the coal, a contact angle and the natural saturation moisture absorption curve between the wetting agent solution with the pure water and quality fraction as 0.05% were individually measured. And an optimization was conducted on the space between the water injection boreholes, water injection pressure, borehole sealing length and other technical parameters. Before and after the optimized water injection conducted, coal samplings were conducted from the boreholes. Cline-Renka algorithm was applied to the interpolation drawing of the total moisture distribution diagram and the dust control efficiency of the coal cutting and powered support pushing forward procedure were investigated. The study showed that the seam water injection with the wetting agent could effectively reduce the coal and water contact angle, could reduce the saturation moisture absorption time of the coal, could increase the saturation water adsorption volume and could improve the wetting effect of the coal. After the optimized coal injection, the average full moisture content of the coal between the two water injection boreholes would be 2.23% higher than the previous water injection plan,and the wetting radius would be increased by 3.5 m. In the coal cutting processing, the average dust control efficiency of the total dust and respirable dust were individually improved by 25.42% and 26.39%. During the process of the powered support pushing forward, the average dust control efficiency of the total dust and respirable dust were individually improved by 23.39% and 25.30%.