地下矿井巷道火灾温度分布及流动条件模拟

IF 1.5 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geosystem Engineering Pub Date : 2020-11-01 DOI:10.1080/12269328.2018.1429954
R. Hansen
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引用次数: 5

摘要

摘要对矿井巷道纵向通风时的瓦斯温度和瓦斯速度进行了建模分析。计算流体力学(CFD)模型和一些经验相关性与矿井巷道中两次全尺寸火灾试验的结果进行了验证。在分析过程中,将CFD模拟结果与实验结果进行比较,发现距离火场35 m和50 m处的上层(天花板)燃气温度拟合得很好。结果表明,CFD模型对低层火气温度的预测过高。CFD模型在一种情况下过高预测了车辆正上方的天花板燃气温度,而在另一种情况下则低于预测。研究发现,经验模型对大范围火灾的平均燃气温度预测过高。结果表明,CFD模型对高段火气速度的预测偏低,对低段火气速度的预测过高。未来的研究应着眼于开发采矿应用的经验模型以及验证开发的CFD模型。
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Modelling temperature distributions and flow conditions of fires in an underground mine drift
Abstract An analysis on the modelling of fire gas temperatures and fire gas velocities in a mine drift with longitudinal ventilation is conducted. A computational fluid dynamics (CFD) model and a number of empirical correlations are validated against the results from two full-scale fire experiments in a mine drift. During the analysis it is found that the upper level (ceiling) fire gas temperature at 35 and 50 m from the fire is well fitted when comparing the results from the CFD modelling with the experimental results. The fire gas temperatures at the lower level are found to be over predicted by the CFD model. The ceiling fire gas temperatures directly above the vehicles are over predicted in one case and under predicted in the other case by the CFD model. The empirical models are found to over predict the average fire gas temperature during extensive parts of the fires. The fire gas velocities at the higher section are found to be under predicted and the fire gas velocities at the lower section are over predicted by the CFD model. Future studies should be aimed at developing empirical models for mining applications as well as validating developed CFD models.
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来源期刊
Geosystem Engineering
Geosystem Engineering GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
2.70
自引率
0.00%
发文量
11
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