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现代矿业 ›› 2026, Vol. 42 ›› Issue (05): 45-52.

• 采矿工程 • 上一篇    下一篇

基于PerlinN-GF-RA算法的随机粗糙度裂隙瓦斯运移特性研究

薛恩思   

  1. 1. 中煤科工集团沈阳研究院有限公司;2. 煤矿灾害防控全国重点实验室
  • 出版日期:2026-05-25 发布日期:2026-06-10

Study on Gas Migration Characteristics of Random Rougness Fractures Based on PerlinN-GF-RA Algorithm

XUE Ensi1,2   

  1. 1. CCTEG Shenyang Research Institute;2. State Key Laboratory of Coal Mine Disaster Prevention and Control
  • Online:2026-05-25 Published:2026-06-10

摘要: 煤层裂隙粗糙度是影响瓦斯运移特性的关键因素,精准表征粗糙裂隙结构对煤矿瓦 斯抽采优化及灾害防控具有重要工程意义。为探明粗糙度对瓦斯运移的作用机制,采用 PerlinN�GF-RA 算法构建粗糙度可控的三维随机裂隙模型,结合响应面回归法建立粗糙度数学模型,模型 决定系数达 98.92%,拟合精度良好。基于 COMSOL 开展数值模拟,设置 4 组粗糙度梯度与 3 种入 口流速工况,分析裂隙粗糙度对瓦斯流动参数的影响规律。结果表明:随粗糙度增大,裂隙内压 力分布均匀性降低,压力极值由 5.59×10¹⁰ Pa 升至 7.07×10¹⁰ Pa,压力水头波动加剧;粗糙度升高会 强化流体扰动,使瓦斯流速稳定性变差;同等流速条件下瓦斯涌出量与粗糙度呈负相关,Ra=8、流 速 4.5 m/s 时涌出量峰值为 0.28 m3 /s,初始流速对瓦斯涌出的促进作用随粗糙度增加逐渐弱化。研 究阐明了裂隙粗糙度影响瓦斯运移的内在机制,可为矿井瓦斯预测、突出风险评价及抽采方案优 化提供理论参考。

关键词: 随机粗糙度, 瓦斯运移, PerlinN-GF-RA算法, 裂隙结构, 数值模拟

Abstract: Coal seam fracture roughness is a key factor affecting gas migration characteristics. Accu⁃ rate characterization of rough fracture structures is of great engineering significance for the optimization of coal mine gas drainage and disaster prevention and control. To clarify the action mechanism of roughness on gas migration,the PerlinN-GF-RA algorithm was adopted to construct three-dimensional stochastic fracture models with controllable roughness,and a mathematical model of roughness is established com⁃ bined with the response surface regression method. The determination coefficient of the model reaches 98.92%,showing favorable fitting accuracy. Numerical simulations are carried out by using COMSOL, and four groups of roughness gradients and three inlet flow velocity working conditions are set to analyze the influence law of fracture roughness on gas flow parameters. The results show that with the increase of roughness,the uniformity of pressure distribution in fractures decreases,the extreme pressure rises from 5.59×1010 Pa to 7.07×1010 Pa,and the fluctuation of pressure head intensifies. The increase of roughness enhances fluid disturbance and deteriorates the stability of gas flow velocity. Under the same flow velocity condition,gas emission capacity is negatively correlated with roughness. When the roughness Ra is 8 and the flow velocity is 4.5 m/s,the peak gas emission capacity is 0.28 m3 /s. The promoting effect of initial flow velocity on gas emission gradually weakens with the increase of roughness. This study clarifies the internal mechanism of fracture roughness affecting gas migration,and can provide theoretical references for mine gas prediction,outburst risk assessment and gas drainage scheme optimization.

Key words: random roughness, gas migration, PerlinN-GF-RA algorithm, fracture structure, numer? ical simulation