Study on the rigid-discrete coupling effect of scraper conveyor under different chain speed-load conditions

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Haozhou Ma , Peng Zhang , Yingwei Dong , Xuewen Wang , Rui Xia , Bo Li
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Abstract

The complexity of the underground environment in coal mines often leads to varying load conditions during the operation of the scraper conveyor, which can affect the lifespan of its components and result in unnecessary energy consumption. A test platform for the scraper conveyor was constructed based on the similarity theory to measure torque, speed, chain tension, and scraper acceleration during transportation. A DEM-MBD model of the scraper conveyor was developed and validated through transport tests and similarity theories to analyze the rigid-discrete coupling effect under different chain speed-load conditions. The results revealed a stratification phenomenon and a Brazilian fruit effect in the movement of coal. The average velocity of the upper and lower coal layers gradually increased during the transportation, while the difference between them gradually decreased. As the load increased, the stacking density and height of coal between scrapers also increased, leading to a higher force exerted on the scraper and chain. As the chain speed increased, the stacking density and height of coal between scrapers decreased, along with a decrease in the force applied to the scraper and chain. The formation of three-body wear necessitates a specific positional condition. When the scraper (chain)- coal-deck plate (chute liner) forms a particle stagnation state, severe wear occurs on the parts. This study provides a foundation for analyzing the transport mechanism of scraper conveyor from the particle perspective, offers a simulation reference for analyzing the mechanical and tribological characteristics of the line pan and scraper chain, and serves as a guideline for the future development of transportation state monitoring and the optimization and enhancement of components under different working conditions.

不同链速-载荷条件下刮板输送机的刚性-离散耦合效应研究
由于煤矿井下环境的复杂性,刮板输送机在运行过程中经常会出现不同的载荷情况,这可能会影响其部件的使用寿命,并造成不必要的能源消耗。基于相似性理论,构建了一个刮板输送机测试平台,用于测量运输过程中的扭矩、速度、链条张力和刮板加速度。通过运输试验和相似性理论,建立并验证了刮板输送机的 DEM-MBD 模型,分析了不同链速-载荷条件下的刚性-离散耦合效应。结果表明,煤炭在运动过程中存在分层现象和巴西果效应。在运输过程中,上层和下层煤的平均速度逐渐增大,而它们之间的速度差逐渐减小。随着载荷的增加,煤炭在刮板之间的堆积密度和高度也随之增加,从而导致刮板和链条受到更大的作用力。随着链条速度的增加,刮板之间的煤炭堆积密度和高度降低,刮板和链条所受的力也随之减小。三体磨损的形成需要特定的位置条件。当刮板(链条)-煤层板(溜槽衬板)形成颗粒停滞状态时,部件会发生严重磨损。本研究为从颗粒角度分析刮板输送机的输送机理奠定了基础,为分析线盘和刮板链的机械和摩擦学特性提供了仿真参考,为今后开展不同工况下的输送状态监测和部件优化改进提供了指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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