Journal
SUSTAINABILITY
Volume 13, Issue 19, Pages -Publisher
MDPI
DOI: 10.3390/su131910899
Keywords
paste filling; slicing mining; false roof stability; optimal false roof thickness
Funding
- projects of the Fundamental Research Funds for the Central Universities [2020ZDPY0221, 2021QN1003]
- National Natural Science Foundation of China [52174130, 52104106, 52174089]
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By establishing a mechanical model and using numerical simulation, the study analyzed the impact of paste false roof thickness on the stability of underground coal mines, determining the optimal thickness to be 3.2 meters.
Ensuring the stability of paste false rooves is an important issue in the study of the process of paste filling and slicing mining. Here, a mechanical model of a paste false roof is created to analyze its stability in the process of lower slicing mining in order to determine the minimum slicing thickness of the false roof. We use FLAC3D to simulate and analyze the influence of changes in paste false roof thickness on the stability of the roof. The quantitative functional relationship between the thickness and the subsidence of a false roof, and the optimal thickness of the artificial paste roof, is finally obtained by the development law of the plastic zone in the lower slicing face. The results show that when the thickness of the paste false roof is 3.2 m, the roof can maintain its self-stabilization state and ensure the normal mining of lower layers. Because the same thickness of the upper and lower layers is beneficial for mining replacement and equipment selection in different layered working faces, the optimal thickness of a paste false roof is determined to be 3.2 m.
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