4.5 Article

The Investigation of Strata Control for Ultrasoft Coal Seam Mining

期刊

GEOFLUIDS
卷 2022, 期 -, 页码 -

出版社

WILEY-HINDAWI
DOI: 10.1155/2022/8130555

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资金

  1. National Natural Science Foundation of China [52004007]
  2. Foundation of Educational Commission of Anhui Province [KJ2019A0130]
  3. Independent Research Foundation of the State Key Laboratory of Mining Response and Disaster Prevention and Control in Deep Coal Mines [SKLMRDPC19ZZ09]

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This paper explores the strata control of ultrasoft coal seam using a case study. It proposes a solution that involves water injection into the coal seam to improve its mechanical properties and stability, as well as the design of a support system and mining technique specifically for ultrasoft coal seam. The study found that this approach effectively prevents geological hazards, improves productivity, and enhances safety for mine workers.
Strata control of ultrasoft coal seam has been a critical problem for mining and geotechnical engineers in years. In this paper, the No. 66207 longwall panel at Xinzhuangzi coal mine, Anhui, China, was used as an example for study. A systematic approach using laboratory testing, numerical simulation, and field validation was implemented to investigate the influences of roadway layout and presplit blasting on mechanical properties of surrounding rock. Based on the results, an inward-stagger roadway layout with presplit blasting on roof was proposed for the regional strata control. The investigation on the relationship between angle of repose of ultrasoft coal and water content showed that the angle of repose first increased then decreased with increasing water content. The peak value was observed at 17.659% water content, suggesting water injection into ultrasoft coal seam can improve the coal mechanical properties and rib stability. The high resistance, integral beam, two-stage rib+roof support system was design to replace the traditional equipment, which can support the ultrasoft coal seam. The combination of this system and proposed difference stepping mining technique was capable of preventing roof and rib from failure, as well as mitigating the rockfall during moving hydraulic support. Based on the field validation, it was found that the stress concentration coefficient was relatively low during mining process. This was able to effectively manage the mining-induced stress while improving the productivity three times than without the technique. There was also no failure event observed during mining, such that the safety of mine workers was improved significantly.

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