Abstract
Given the background of significant Coal Mine gas disasters worldwide, the research and development of efficient gas control technologies have become critical to ensuring mining safety. CO(2) gas fracturing (CO(2)-Frac), an innovative technology for Coal Mine gas control, has demonstrated efficiency in various mining areas across China. However, its application in outburst-prone coal seams is not yet fully understood. This study presents a field-scale CO(2)-Frac project conducted in an outburst Coal Mine in China, specifically the Pingshu Coal Mine, where the previously employed dense-borehole gas extraction technology failed to efficiently achieve gas extraction and outburst prevention. The CO(2)-Frac plan was evaluated through fracture propagation experiments utilizing both single-hole and dual-hole configurations, highlighting the advantages of the dual-hole CO(2)-Frac method. Subsequently, on-site gas extraction tests were conducted to further assess the efficacy of the CO(2)-Frac plan. The results indicate that (1) In the dual-hole CO(2)-Frac scheme, the fractured and pressure relief area expanded to approximately 26.82 m(2), which is 220% larger than that of the single-hole scheme. (2) The dual-hole CO(2)-Frac significantly enhanced gas extraction effectiveness, increasing the flow rate from 0.026 to 0.216 m(3)/min in a 100m borehole, a 7.3-fold improvement. Additionally, the gas extraction period to reach the standard was reduced from 20 to 6 days. These findings conclusively demonstrate that the dual-hole CO(2)-Frac technique is an effective method for safe excavation in outburst-prone coal seams, providing both theoretical and practical validation for its application in similar geological settings.