Collaborative optimization of driving support technology in the W3233 working face return airway

IF 1.9 4区 工程技术 Q4 ENERGY & FUELS
Ziyi Yang, Yingfu Li, Peng Kong, Zhigang Zhu, Zulin Wang, Guowei Wang
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引用次数: 0

Abstract

Deep-shaft mining in roadway stress concentration, difficult control of the surrounding rock, and mining imbalance affect mining efficiency in coal mines. The mechanical parameters and crack development law of roadway surrounding rock were studied by laboratory experiments. The mechanical model was established by the method of theoretical analysis, the maximum empty roof distance was deduced, and two support schemes were designed. Through the numerical simulation method, the support scheme was compared and analyzed, the deformation rule of roadway surrounding rock, the optimization of roadway support parameters and the application of hysteresis technology are studied. The effect of different support schemes was verified by three-dimensional similar simulation experiments. The practical engineering verification showed that the construction time of each support circle was reduced by approximately 1 h, and the work was completed 60 days earlier. The research showed that the optimal support scheme was support scheme 1 (7 bolts with 800 mm × 1000 mm spacing between the roof, 10 bolts with 800 mm × 1000 mm spacing between the two sides, and 2 × 1 × 2 cables with 1600 mm × 2000 mm spacing between the roof). Support scheme 1 was applied to the engineering site to control the deformation of surrounding rock at 80 mm, and the deformation was less than the original support scheme. The construction was completed in advance under the hysteresis process, and the support efficiency and operation safety were improved. The results revealed the mechanism of surrounding rock control and proved the effectiveness of digging support synergy. This optimization plan serves as a reference for studying roadway support in rapid excavation and provides theoretical support for safe and efficient coal roadway mining.
W3233工作面回采巷道掘进支护技术协同优化
煤矿深井开采巷道应力集中、围岩控制困难、开采不平衡等问题影响了矿井的开采效率。通过室内试验研究了巷道围岩的力学参数和裂缝发育规律。采用理论分析的方法建立了顶板的力学模型,推导了顶板最大空距,设计了两种支护方案。通过数值模拟方法,对不同支护方案进行了对比分析,研究了巷道围岩变形规律、巷道支护参数的优化及滞回技术的应用。通过三维相似模拟试验验证了不同支护方案的效果。实际工程验证表明,每个支护圈施工时间缩短约1 h,提前60天完成工作。研究表明,最优支护方案为支护方案1(顶板间距为800mm × 1000mm锚杆7根,两侧间距为800mm × 1000mm锚杆10根,顶板间距为1600 mm × 2000 mm锚杆2 × 1 × 2根)。工程现场采用支护方案1,将围岩变形控制在80 mm,且变形小于原支护方案。在滞回过程下提前完成施工,提高了支护效率和运行安全性。研究结果揭示了围岩控制机理,证明了开挖支护协同的有效性。该优化方案可为快速开挖巷道支护研究提供参考,为煤矿巷道安全高效开采提供理论支持。
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来源期刊
Energy Exploration & Exploitation
Energy Exploration & Exploitation 工程技术-能源与燃料
CiteScore
5.40
自引率
3.70%
发文量
78
审稿时长
3.9 months
期刊介绍: Energy Exploration & Exploitation is a peer-reviewed, open access journal that provides up-to-date, informative reviews and original articles on important issues in the exploration, exploitation, use and economics of the world’s energy resources.
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