双巷道布置中支柱稳定性及其控制的评估

IF 3.5 3区 工程技术 Q3 ENERGY & FUELS
Wanpeng Huang, Tongyang Zhao, Chengguo Zhang, Yaxin Liu, Le Sui, Tao Hou, Donghai Jiang
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引用次数: 0

摘要

为解决小煤柱在相邻工作面采动扰动下的稳定性控制问题,本研究以高家堡煤矿第四采区403、404工作面两个采掘巷道为研究对象。采用力学理论分析、煤动扰动实验和现场工程实践相结合的综合研究方法。首先,分析确定了工作面覆岩顶板断裂相关扰动荷载的大小和频率;其次,通过自主研发的岩石蠕变扰动实验系统,测试并获得了煤体对外部 103 J 量级扰动荷载(连续扰动变形)敏感的应变和应力阈值指标,并将煤体试件对蠕变扰动敏感的应力阈值指标定义为长期强度。然后,建立了工作面采前和采后煤柱-顶板力学结构模型,分析了煤柱体的上覆支护压力。最后,设计了 "双向对拉锚索承压加固+钢管混凝土墩柱+架空断顶 "的小型煤柱复合加固支护技术,以确保煤柱柱身不受累积扰动和扰动大变形的影响而失稳。根据采区后支护能力计算,作用在煤柱上的支护荷载约为 17593 kN,应力为 2.93 MPa,安全系数约为 1.23。经过工程实践应用,在工作面采动扰动期间,小煤柱柱身的竖向变形和侧倾扰动变形得到了有效控制,加固煤柱的竖向变形仅为 187 毫米,侧倾变形最终稳定在 124 毫米左右,保持了良好的稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Assessment of pillar stability and its control in a double roadway layout

Assessment of pillar stability and its control in a double roadway layout

To solve the problem of controlling the stability of small coal pillars under the mining disturbance of the adjacent working face, the fourth panel 403 and 404 working faces of the Gaojiabao coal mine with two mining roadways is taken as the object of this research. The comprehensive research method of combining mechanical theory analysis, coal dynamic disturbance experiments and field engineering practice was adopted. First, the analysis determined the magnitude and frequency of fracture-related disturbance loading on the overburden roof of the working face; next, the strain and stress threshold indicators of the coal body, sensitive to the external disturbance load of 103 J magnitude (continuous disturbance deformation), were tested and obtained through a self-developed rock creep disturbance experimental system, and the stress threshold indicators of coal body specimens sensitive to creep disturbance were defined as the long-term strength. Then, a coal pillar-roof mechanics structure model was established in the premining and postmining areas of the working face, and the overlying support pressure on the coal pillar body was analysed. Finally, a small coal pillar composite reinforcement support technology with ‘two-way buttressing anchor cable for pressure reinforcement + steel pipe concrete pier column + overhead roof break’ was designed to ensuring that the coal pillar body would not be destabilised by cumulative disturbance and large deformation under disturbance. According postmining area support capacity calculations, the support loading acting on the coal pillar is approximately 17593 kN, with the stress being 2.93 MPa; and the factor of safety is approximately 1.23. After engineering practice application of this approach, the vertical deformation of the small coal pillar body and side heave disturbance deformation were effectively controlled during the working face mining disturbance, the vertical deformation of the reinforced coal pillar was only 187 mm, and the side heave deformation was finally stabilised at approximately 124 mm, which maintained good stability.

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来源期刊
Energy Science & Engineering
Energy Science & Engineering Engineering-Safety, Risk, Reliability and Quality
CiteScore
6.80
自引率
7.90%
发文量
298
审稿时长
11 weeks
期刊介绍: Energy Science & Engineering is a peer reviewed, open access journal dedicated to fundamental and applied research on energy and supply and use. Published as a co-operative venture of Wiley and SCI (Society of Chemical Industry), the journal offers authors a fast route to publication and the ability to share their research with the widest possible audience of scientists, professionals and other interested people across the globe. Securing an affordable and low carbon energy supply is a critical challenge of the 21st century and the solutions will require collaboration between scientists and engineers worldwide. This new journal aims to facilitate collaboration and spark innovation in energy research and development. Due to the importance of this topic to society and economic development the journal will give priority to quality research papers that are accessible to a broad readership and discuss sustainable, state-of-the art approaches to shaping the future of energy. This multidisciplinary journal will appeal to all researchers and professionals working in any area of energy in academia, industry or government, including scientists, engineers, consultants, policy-makers, government officials, economists and corporate organisations.
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