节气门效应-鼓风机与排气扇

R. Hansen
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引用次数: 1

摘要

摘要地下火灾的风险之一是节流效应,节流效应可能导致无法预料的烟雾蔓延。本文研究了矿井巷道中鼓风机箱和排风机箱的节气效果。本文的目的是对节流效果进行参数化研究,改变影响参数,如放热率和风扇流速。本文采用了模型尺度矿井巷道火灾试验数据和CFD模拟结果。结果发现,这两种扇形情况的差异在大小和方向上都是显著的。在基本工况下,排气扇工况下的节气门效应和背层效应更为严重。当热释放率增加到116 kW时,导致背层增加,但排气扇的节流阀效应增加,鼓风机的节流阀效应减少。在鼓风机工况中,随着气体密度的下降趋于平稳,节流效果下降,但流速进一步增加,导致下游质量流量增加。这一发现在模型规模的矿井巷道中得到了类似的实验结果的证实。结果表明,由火羽变化引起的质量流率高于外部施加的风扇流速增加。当火与排气扇的距离增大时,背层增大,节流效果减小。
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The Throttle Effect – Blower Fan Versus Exhaust Fan
Abstract One of the risks connected to fires underground is the throttle effect which may cause unforeseen smoke spread. This paper investigates the throttle effect for a blower fan and an exhaust fan case in a mine drift. The aim of the paper is to perform a parametric study on the throttle effect, varying influencing parameters such as the heat release rate and fan flow velocity. Data from fire experiments in a model-scale mine drift and results from CFD simulations were used during the study. It was found that the differences between the two fan cases were significant both in magnitude and occasionally in direction. For the base cases the throttle effect as well as the backlayering were more severe in the exhaust fan case. When increasing the heat release rate to 116 kW an increasing backlayering resulted, but the throttle effect was found to increase for the exhaust fan case and decrease for the blower fan case. The throttle effect decreased in the blower fan case as the gas density decrease levelled off, but the flow velocity increased even further, causing an increase in the downstream mass flow rate. This finding was confirmed by similar experimental results in model-scale mine drifts. The resulting mass flow rate induced by the fire plume changes was found to be higher than the externally imposed increase of the fan flow velocity. When increasing the distance between the fire and the exhaust fan, the backlayering increased and the throttle effect decreased.
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