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综采工作面风流-煤尘逸散规律及防控技术研究

高成刘立仁郑磊吕明杰

工矿自动化2025，Vol.51Issue(1)：111-118,8.

工矿自动化2025，Vol.51Issue(1)：111-118,8.DOI:10.13272/j.issn.1671-251x.2024100057

综采工作面风流-煤尘逸散规律及防控技术研究

Study on airflow-coal dust dispersion pattern and control technology in fully mechanized mining face

高成 ¹刘立仁 ¹郑磊 ²吕明杰¹

作者信息

1. 陕西德源府谷能源有限公司三道沟煤矿,陕西府谷 719400
2. 中煤科工集团重庆研究院有限公司,重庆 400037
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摘要

Abstract

The shearer in a fully mechanized mining face generates significant turbulent airflow during coal cutting,resulting in changes in airflow velocity in the mining area and causing the lateral dispersion of coal dust particles toward pavements.To investigate the effect of cutting-induced turbulent airflow on the lateral dispersion of coal dust,the Multiple Reference Frame(MRF)model was applied to simulate drum rotation during coal cutting.Numerical simulations were conducted to analyze the coupled transport patterns of airflow and coal dust under different coal cutting conditions,revealing the relationship between airflow distribution and coal dust concentration distribution in the mining face.To reduce the impact of cutting-induced turbulent airflow on the lateral dispersion of coal dust,a dust source tracking and spray dust suppression system for the shearer was proposed.The system formed a mist curtain between the shearer drum and the pavements using spray devices installed on the canopy or the front cantilever beam of the support.It effectively mitigated the disturbance caused by turbulent airflow,prevented the lateral dispersion of coal dust particles,and enabled dynamic tracking of the dust source generated by drum cutting.The simulation results showed that the turbulent airflow generated by drum rotation under different cutting conditions caused airflow to shift laterally toward the pavements.When the drum rotation speed reached 29.29 r/min and the system airflow velocity was 1.40 m/s,the lateral velocity shift exceeded 0.54 m/s,causing coal dust particles to diffuse into the pavements and resulting in coal dust concentrations exceeding 300 mg/m3.This phenomenon was particularly pronounced during downwind coal cutting,where the coal dust concentration in the pedestrian area reached 385.12 mg/m3.Field test results indicated that the dust source tracking and spray dust suppression technology for the shearer achieved a dust suppression efficiency of 83.68％,while the standby power consumption of a single spray point remained below 10 W.

关键词

综采工作面/煤尘治理/多重参考系模型/截割湍流风/截割煤尘横向扩散规律/尘源跟踪/喷雾降尘/MRF

Key words

fully mechanized mining face/coal dust control/multiple reference frame model/cutting-induced turbulent airflow/lateral dispersion pattern of cutting coal dust/dust source tracking/spray dust suppression/MRF

分类

矿山工程

引用本文复制引用

高成,刘立仁,郑磊,吕明杰..综采工作面风流-煤尘逸散规律及防控技术研究[J].工矿自动化,2025,51(1):111-118,8.

基金项目

重庆市自然科学基金面上项目(cstc2021jcyj-msxmX1153). （cstc2021jcyj-msxmX1153）

工矿自动化

OA北大核心

ISSN：1671-251X

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