煤与瓦斯突出的瓦斯运移规律及影响因素研究

IF 0.8 4区 工程技术 Q4 CHEMISTRY, MULTIDISCIPLINARY
Z. Li, Z. Wang, C. Miao, JunLing Ding, J. Wu
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引用次数: 0

摘要

摘要 为研究煤与瓦斯突出后风速和排量对瓦斯运移的影响。设计并建造了瓦斯溃散期间的瓦斯迁移实验装置。实验结果表明,爆发期管道内瓦斯迁移受风速影响较大,回风侧氧气浓度下降速度快于进风侧,说明爆发后瓦斯向回风侧迁移速度较快。爆发流量越大,爆发气体在竖井内的迁移范围越大,进风侧气流反向程度越大,对进风压力的影响先减小后增大。在通风恢复阶段,进风氧气浓度的上升速度平均是回风的 1.5 倍。同时,利用 TF1M3D 仿真软件对预设矿井的瓦斯涌出方案进行分析,研究瓦斯涌出后矿井内的瓦斯迁移规律和时空分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Study on the Law of Gas Transport and Influencing Factors of Coal and Gas Outburst

Study on the Law of Gas Transport and Influencing Factors of Coal and Gas Outburst

Study on the Law of Gas Transport and Influencing Factors of Coal and Gas Outburst

To study the effect of wind velocity and discharge on gas transport after coal and gas outburst. An experimental device for gas migration during the outburst period was designed and built. The experimental results show that the gas migration in the pipeline during the outburst period is affected by the wind speed, and the oxygen concentration on the return air side decreases faster than that on the inlet air side, indicating that the gas migration to the return air side is faster after the outburst. The larger the outburst flow, the larger the migration range of the outburst gas in the shaft and the greater the degree of airflow reversal on the inlet side, and the influence on the inlet pressure decreases first and then increases. For the ventilation recovery stage, the oxygen concentration in the inlet air rises 1.5 times faster than that in the return air on average. At the same time, TF1M3D simulation software is used to analyze the gas outburst plan of the preset mine, and study the law of gas migration and spatial-temporal distribution in the mine after the outburst.

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来源期刊
Solid Fuel Chemistry
Solid Fuel Chemistry CHEMISTRY, MULTIDISCIPLINARY-ENERGY & FUELS
CiteScore
1.10
自引率
28.60%
发文量
52
审稿时长
6-12 weeks
期刊介绍: The journal publishes theoretical and applied articles on the chemistry and physics of solid fuels and carbonaceous materials. It addresses the composition, structure, and properties of solid fuels. The aim of the published articles is to demonstrate how novel discoveries, developments, and theories may be used in improved analysis and design of new types of fuels, chemicals, and by-products. The journal is particularly concerned with technological aspects of various chemical conversion processes and includes papers related to geochemistry, petrology and systematization of fossil fuels, their beneficiation and preparation for processing, the processes themselves, and the ultimate recovery of the liquid or gaseous end products.
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