Two new shaped coal pillars designed to protect the subsurface pipeline in the gas-coal integrated mining field

In the gas-coal integrated mining field, the conventional design method of pipeline coal pillars leads to a large amount of coal pillars being unrecovered and overlooks the pipeline’s safety requirements. Considering the coal pillar recovery rate and pipeline’s safety requirements, two new shaped co...

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Published inInternational journal of mining science and technology Vol. 35; no. 3; pp. 325 - 344
Main Authors Zhao, Yixin, Ren, Jiandong, Sun, Zhongbo
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2025
Elsevier
Subjects
Coal pillar recovery rate
Fishbone-shaped coal pillar
Gas-coal integrated mining field
Grille-shaped coal pillar
Safe requirement
Subsurface pipeline
Gas-coal integrated mining field
Grille-shaped coal pillar
Safe requirement
Fishbone-shaped coal pillar
Subsurface pipeline
Coal pillar recovery rate
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Abstract In the gas-coal integrated mining field, the conventional design method of pipeline coal pillars leads to a large amount of coal pillars being unrecovered and overlooks the pipeline’s safety requirements. Considering the coal pillar recovery rate and pipeline’s safety requirements, two new shaped coal pillar design approaches for subsurface pipelines were developed. Firstly, the deformation limitations for measuring pipeline safety are categorized into two: no deformation is permitted, and deformation is acceptable within elastic limits. Subsequently, integrating the key stratum theory (KST) and cave angle, a fishbone-shaped coal pillar design approach that does not permit pipeline deformation is established. Meanwhile, combined with the ground subsidence and the pipeline’s elastic deformation limit, a grille-shaped coal pillar design approach that accepts deformation pipelines within elastic limits is established. Those two new approaches clarify parameters including mined width, coal pillar width and mined length. Finally, the case study shows that the designed mined width, coal pillar width and mined length of the fishbone-shaped coal pillar are 90, 80, and 130 m, while those of the grille-shaped are 320, 370, and 640 m. Compared with the conventional method, the fishbone-shaped and grille-shaped coal pillar design approaches recovered coal pillar resources of 2.65×106 and 5.81×106 t on the premise of meeting the pipeline safety requirements, and the recovery rates increased by 20.5% and 45.0%, with expenditures representing only 56.46% and 20.02% of the respective benefits. These new approaches provide managers with diverse options for protecting pipeline safety while promoting coal pillar recovery, which is conducive to the harmonic mining of gas-coal resources.
AbstractList In the gas-coal integrated mining field, the conventional design method of pipeline coal pillars leads to a large amount of coal pillars being unrecovered and overlooks the pipeline’s safety requirements. Considering the coal pillar recovery rate and pipeline’s safety requirements, two new shaped coal pillar design approaches for subsurface pipelines were developed. Firstly, the deformation limitations for measuring pipeline safety are categorized into two: no deformation is permitted, and deformation is acceptable within elastic limits. Subsequently, integrating the key stratum theory (KST) and cave angle, a fishbone-shaped coal pillar design approach that does not permit pipeline deformation is established. Meanwhile, combined with the ground subsidence and the pipeline’s elastic deformation limit, a grille-shaped coal pillar design approach that accepts deformation pipelines within elastic limits is established. Those two new approaches clarify parameters including mined width, coal pillar width and mined length. Finally, the case study shows that the designed mined width, coal pillar width and mined length of the fishbone-shaped coal pillar are 90, 80, and 130 m, while those of the grille-shaped are 320, 370, and 640 m. Compared with the conventional method, the fishbone-shaped and grille-shaped coal pillar design approaches recovered coal pillar resources of 2.65×106 and 5.81×106 t on the premise of meeting the pipeline safety requirements, and the recovery rates increased by 20.5% and 45.0%, with expenditures representing only 56.46% and 20.02% of the respective benefits. These new approaches provide managers with diverse options for protecting pipeline safety while promoting coal pillar recovery, which is conducive to the harmonic mining of gas-coal resources.
Author Sun, Zhongbo
Ren, Jiandong
Zhao, Yixin
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Issue 3
Keywords Gas-coal integrated mining field
Grille-shaped coal pillar
Safe requirement
Fishbone-shaped coal pillar
Subsurface pipeline
Coal pillar recovery rate
Language English
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Snippet In the gas-coal integrated mining field, the conventional design method of pipeline coal pillars leads to a large amount of coal pillars being unrecovered and...
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SubjectTerms Coal pillar recovery rate
Fishbone-shaped coal pillar
Gas-coal integrated mining field
Grille-shaped coal pillar
Safe requirement
Subsurface pipeline
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Title Two new shaped coal pillars designed to protect the subsurface pipeline in the gas-coal integrated mining field
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