2021
DOI: 10.1155/2021/8247382
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Study on the Technology of Enhancing Permeability by Millisecond Blasting in Sanyuan Coal Mine

Abstract: To reduce gas disasters in low permeability and high-gas coal seams and improve gas predrainage efficiency, conventional deep-hole presplitting blasting permeability increasing technology was refined and perfected. The numerical calculation model of presplitting blasting was established by using ANSYS/LS-DYNA numerical simulation software. The damage degree of coal and rock blasting was quantitatively evaluated by using the value range of the damage variable D. According to the actual field test parameters of … Show more

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Cited by 2 publications
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“…Implementing artificial enhanced permeability technologies can effectively improve coal seam gas drainage efficiency, , thoroughly predraining gas from coal seams, and homogenizing gas distribution at the work face, which are fundamental techniques for gas emission homogenization. To achieve this goal, various gas control technologies have been developed and applied globally to address these challenges, including hydraulic fracturing, hydraulic slotting, hydraulic flushing, bottom-up extraction roadway, and deep-hole blasting, improving gas extraction efficiency to varying degrees. However, research into these technologies has not involved the evaluation of their effects on homogenizing gas emission, which reflects the extraction effect but is more closely tied to the safety and efficiency of production at the work face and is more meaningful for the management of gas in outburst-prone coal seams.…”
Section: Introductionmentioning
confidence: 99%
“…Implementing artificial enhanced permeability technologies can effectively improve coal seam gas drainage efficiency, , thoroughly predraining gas from coal seams, and homogenizing gas distribution at the work face, which are fundamental techniques for gas emission homogenization. To achieve this goal, various gas control technologies have been developed and applied globally to address these challenges, including hydraulic fracturing, hydraulic slotting, hydraulic flushing, bottom-up extraction roadway, and deep-hole blasting, improving gas extraction efficiency to varying degrees. However, research into these technologies has not involved the evaluation of their effects on homogenizing gas emission, which reflects the extraction effect but is more closely tied to the safety and efficiency of production at the work face and is more meaningful for the management of gas in outburst-prone coal seams.…”
Section: Introductionmentioning
confidence: 99%