Geotechnical mechanisms of roof fall ahead of face support in longwall mining

IF 0.4 Q4 MINING & MINERAL PROCESSING
T. Le, Hung Pham Duc, Hung Dang Quang
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引用次数: 0

Abstract

Longwall mining is one of the most productive methods forextracting underground coal seams. Although the understanding of longwallmining-associated geotechnical mechanisms has been significantlyimproved that contributes to better ground control, roof rock/top coal fallahead of support (roof fall) has not been fully understood that causes severedamage to equipment and casualty at face. Empirical, theoretical andmodelling methods were successfully used in past studies to understand themechanisms driving roof fall; however, key mechanisms and theirinteractions during the fall were not satisfactorily investigated due tolimitation of each method. This study aims to gain a systematicunderstanding of roof fall mechanisms in longwall operation. A review ofpast studies on roof fall is implemented with emphasis on the principles ofapplied research methods. The study confirms that the interaction betweenroof strata, coal seam and face support largely controls roof fall whilenumerical modelling shows great potential in studying roof fall complexmechanisms. The paper’s findings provide mining engineers/scientists witha systematic understanding on roof fall from which more effective roofcontrol strategies can be further developed.
长壁开采工作面支护前冒顶的岩土力学机理
长壁开采是开采地下煤层最有效的方法之一。尽管对长壁开采相关岩土力学机制的理解已经得到了显著提高,有助于更好地控制地面,但对顶板岩石/顶煤落先于支护(顶板落)造成严重设备损坏和工作面的人员伤亡的理解尚未完全了解。在过去的研究中,经验、理论和建模方法被成功地用于理解驱动顶板坍塌的机制;然而,由于每种方法的模仿,对下降过程中的关键机制及其相互作用的研究并不令人满意。本研究旨在对长壁采场顶板落顶机理有系统的认识。回顾了以往的研究,重点介绍了应用研究方法的原则。研究证实顶板岩层、煤层和工作面支架之间的相互作用在很大程度上控制着顶板冒落,数值模拟在研究顶板冒落复杂机理方面具有很大的潜力。本文的研究结果为采矿工程师/科学家提供了对顶板掉落的系统了解,从而可以进一步制定更有效的顶板控制策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
0.70
自引率
0.00%
发文量
44
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