• 中文核心期刊
  • 中国科技核心期刊
  • RCCSE中国核心学术期刊
  • Scopus, DOAJ, CA, AJ, JST收录期刊
高级检索

不同风速下大采高综采工作面粉尘溯源模拟研究

Numerical simulation of dust source tracing in a fully mechanized working face with large mining height under different wind speeds

  • 摘要: 掌握大采高综采工作面粉尘分布特征是粉尘治理的前提。为研究不同风速下大采高综采工作面粉尘运移规律及其来源,以国能神东煤炭集团大柳塔煤矿综采工作面为研究对象,运用Solidworks建立三维几何模型,采用CFD数值模拟方法,分别构建割煤粉尘、移架粉尘及二者共同作用下的粉尘运移模型,系统对比分析单一尘源与双尘源粉尘分布特性,对不同风速下综采工作面呼吸带高度煤壁侧与行人侧的粉尘进行溯源分析。结果表明,在单一尘源条件下,滚筒割煤产生的粉尘在采煤机下风煤壁侧呼吸带高度呈现“高—低—高”的浓度分布特征;风速为0.8、1.0 m/s时,移架作业产生的粉尘主要集中在下风煤壁侧和人行侧20~30 m内,当风速提升至1.2 m/s时,粉尘聚集区转移至下风行人侧。在双尘源共同作用下,当风速为0.8 m/s时,煤壁侧粉尘由割煤粉尘与移架粉尘两部分组成;当风速大于0.8 m/s时,煤壁侧粉尘主要为割煤产尘,行人侧粉尘主要来源于移架作业。研究结果可为揭示大采高综采工作面粉尘运移规律提供理论依据,并为粉尘精准防治措施的实施提供数据参考。

     

    Abstract: Understanding the dust distribution characteristics in a fully mechanized working face with a large mining height is a prerequisite for dust control. To investigate the dust migration patterns and their sources under different wind speeds, this study takes the fully mechanized working face of the Shendong Daliuta Coal Mine, owned by CHN Energy Group, as the research object. A three-dimensional geometric model is established using Solidworks, and numerical simulations are carried out using the CFD method. Dust migration models are developed for three scenarios: coal-cutting dust alone, support-moving dust alone, and the combined effect of both dust sources. A systematic comparative analysis is conducted to examine the dust distribution characteristics under single and dual dust sources. Furthermore, source tracing is performed for dust at the breathing zone height on both the coal wall side and the pedestrian side under different wind speeds. The results show that under the single-source condition, the dust generated by the shearer drum exhibits a "high-low-high" concentration distribution at the breathing zone height on the downwind coal wall side of the shearer. At wind speeds of 0.8 m/s and 1.0 m/s, dust from support-moving operations is mainly concentrated within a range of 20 m to 30 m on both the downwind coal wall side and the pedestrian side. When the wind speed increases to 1.2 m/s, the dust accumulation zone shifts to the downwind pedestrian side. Under the combined effect of both dust sources, at a wind speed of 0.8 m/s, the dust on the coal wall side of the breathing zone originates from both coal-cutting and support-moving operations. When the wind speed exceeds 0.8 m/s, the dust on the coal wall side is primarily influenced by coal-cutting dust, while the dust on the pedestrian side mainly comes from support-moving operations. These findings provide a theoretical basis for revealing dust migration in fully mechanized working faces with large mining heights and offer data references for the implementation of targeted dust control measures.

     

/

返回文章
返回