| 隧道火灾排烟口位置对排烟效率的影响 |
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| 引用本文: | 林鹏,王国元,司有亮,王钟宽,吴凡雨,高东丽,梅秀娟.隧道火灾排烟口位置对排烟效率的影响[J].西南交通大学学报,2019,54(5):1055-1062, 1112. |
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| 作者姓名: | 林鹏 王国元 司有亮 王钟宽 吴凡雨 高东丽 梅秀娟 |
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| 基金项目: | 国家自然科学基金资助项目(71573215);国家重点研发计划资助项目(2016YFC0800603);中央高校基本科研业务基金项目(2682016cx082) |
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| 摘 要: | 为研究长大隧道其排烟口位置对半横向排烟效率的影响,本文以Memorial Tunnel 为原型建立1∶20隧道模型,其尺寸为 42.7 m × 0.45 m × 0.23 m,并采用坡度为水平和3.2%两种状态,以油池火(甲醇)作为火源,在模型隧道中进行了一系列的实验. 同时,采用火灾动力学模拟软件FDS 6.0.1对排烟口位于火源左侧、右侧和两侧对称分布3种工况进行数值模拟,对比数值模拟和实验结果,得出以下结论: (1)在水平隧道中,排烟口对称分布于火源两侧时,烟气层大致呈对称分布,排烟效率最高,相对于排烟口分布于火源左侧或右侧,其排烟效率能分别提高10.22%~13.58%和7.66%~16.84%;当两排烟口位于火源左侧或右侧时,烟气向排烟口所在位置相反方向蔓延距离增长,排烟效率不存在明显差异. (2)在倾斜隧道中,烟气在火源两侧呈不对称分布,向隧道高端蔓延距离较长;当排烟口仅火源左侧(低端)布置时排烟效率最低,而对称分布于火源两侧时的排烟效率有所提高,较排烟口仅左侧分布提高了33.9%~39.6%;排烟口仅分布于火源右侧(高端)时的排烟效率最高,与排烟口仅分布于火源左侧时相比,排烟效率提高了40.5%~51.6%. (3)倾斜隧道中排烟口位置对排烟效率的影响较水平隧道更为显著,且随着排烟量的增加,该影响程度逐渐减小.
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| 关 键 词: | 隧道火灾 排烟口位置 排烟效率 |
| 收稿时间: | 2017-12-29 |
Influence of Vent Location on Efficiency of Smoke Extraction in Tunnel Fire |
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| LIN Peng,WANG Guoyuan,SI Youliang,WANG Zhongkuan,WU Fanyu,GAO Dongli,MEI Xiujuan.Influence of Vent Location on Efficiency of Smoke Extraction in Tunnel Fire[J].Journal of Southwest Jiaotong University,2019,54(5):1055-1062, 1112. |
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| Authors: | LIN Peng WANG Guoyuan SI Youliang WANG Zhongkuan WU Fanyu GAO Dongli MEI Xiujuan |
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| Abstract: | To study the influence of smoke vent location on smoke extraction efficiency for semi-transversal smoke control system in long tunnel, a 1∶20 reduced-scale tunnel model was built on the basis of Memorial Tunnel. The model has a dimension of 42.7 m × 0.45 m × 0.23 m, with two gradients of 0% and 3.2%. A series of fire experiments were conducted in the tunnel model with the fire source of pool fire (methanol). Meanwhile, three different scenarios were simulated using Fire Dynamics Simulator (FDS 6.0.1), in which two smoke vents are located on the left side, the right side, or both sides of fire source. By comparing the numerical simulation and experimental results, the following conclusions are made: (1) In the horizontal tunnel (0% gradient), the smoke layer distributes symmetrically for the smoke vents symmetrically located on both sides of fire source. Smoke extraction efficiency in this scenario reaches the maximum, with increases of 10.22%–13.58% and 7.66%–16.84% in contrast to the other two cases with smoke vents on the left and right sides respectively. These two cases show no significant difference in smoke extraction efficiency although the length of smoke layer is prolonged; (2) In the tunnel with a gradient of 3.2%, smoke layer asymmetrically distributes on both sides of fire source and more smoke spreads to the uphill side. Smoke extraction efficiency is the lowest for smoke vents on the left side of fire source (downhill side), it increases by 33.9%–39.6% for vents symmetrically located on both sides of fire source, and reaches the maximum for vents on the right side of fire source (uphill side), increasing by 40.5%–51.6% compared with that with the vents on the left side; (3) The influence of smoke vent location on smoke extraction efficiency in the inclined tunnel is more significant than that in horizontal tunnel and the degree of influence reduces with the increase of smoke extraction volume. |
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