采空区矸石堆积选择性开采新技术对煤质的研究

IF 2.8 Q2 MINING & MINERAL PROCESSING Mining of Mineral Deposits Pub Date : 2022-12-30 DOI:10.33271/mining16.04.103
D. Malashkevych, M. Petlovanyi, K. Sai, S. Zubko
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引用次数: 22

摘要

意图研究目的是研究在空间和时间动态变化的条件下,利用地下采空区废石堆积的采场开采新技术,形成采出煤的定量定性指标。方法。在Heroiv Kosmosu矿山的条件下,为开采低厚度煤炭储量和开采厚度、采场和预备工作面的底切岩石体积而形成等高线。根据井和采矿作业的地质数据,确定开采等高线边界内煤层、岩层和围岩的平均密度值。图形基础在AutoCAD程序中执行。根据组织采场和准备作业的时间表,使用С10t煤层轮廓的数字空间模型。计算了在给定时间段内形成定量定性岩体指标所涉及的废石和矿物的体积。调查结果。已经确定,在研究矿区(相当于开采现场)的煤炭储量开采过程中,废石堆积采矿技术的生产量和可操作煤灰含量平均为376.5万吨和15.2%,而传统技术为621.3万吨和46.7%。然而,已经证明,就能量当量而言,使用具有废石堆积的开采技术开采的煤的价值比传统技术高7.4%(9.6 TJ对8.9 TJ)。独创性首次揭示了将从新的采柱中提取储量的漂流作业与相关的采场作业相结合,形成一种在采空区堆积废石的新的选择性开采技术时,煤的操作灰分和能量值的形成机制。实际意义。开发了一种在采空区利用废石堆积选择性开采技术预测煤的可操作灰分和质量的算法,该算法对煤矿的技术经济指标具有重要意义。
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Research into the coal quality with a new selective mining technology of the waste rock accumulation in the mined-out area
Purpose. The research purpose is to study the formation of quantitative-qualitative indicators of mined coal under conditions of dynamic changes in space and time with a new stope mining technology with waste rock accumulation in the underground mined-out area. Methods. The contours are formed for mining low-thickness coal reserves and extracting thicknesses, undercut rock volumes in the stoping and preparatory faces in the conditions of the Heroiiv Kosmosu mine. The average density values of coal, rock layers and wall rocks in the seam within the boundaries of mining contours are determined based on the geological data of wells and mining operations. The graphic basis is executed in the AutoCAD program. A digital spatial model of the С10t seam contours is used, according to the schedule for organizing stope and preparatory operations. The volumes of waste rocks and minerals involved in the formation of quantitative-qualitative rock mass indicators in a given time period are calculated. Findings. It has been determined that during mining of coal reserves from the studied mining area (equal to extraction site), the volume of production and the operational coal ash content in the mining technology with waste rock accumulation averages 376.5 thousand tons and 15.2%, while with traditional technology – 621.3 thousand tons and 46.7%. Nevertheless, it has been proven that in terms of energy equivalent, the value of mined coal using the mining technology with waste rock accumulation is higher by 7.4% than the traditional technology (9.6 TJ versus 8.9 TJ). Originality. For the first time, a mechanism for the formation of operational ash content and energy value of coal has been revealed when combining the processes of drifting operations to prepare reserves from new extraction pillars with associated stope operations into a new selective mining technology with waste rock accumulation in the mined-out area. Practical implications. An algorithm for predicting the operational ash content and quality of coal when using selective mining technology with waste rock accumulation in the mined-out area has been developed, which is important for the technical and economic indicators of coal mines.
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来源期刊
Mining of Mineral Deposits
Mining of Mineral Deposits MINING & MINERAL PROCESSING-
CiteScore
5.20
自引率
15.80%
发文量
52
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