内向环境风对双层悬索桥火灾温度分布的影响研究

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中文摘要：为了研究双层悬索桥下层发生车辆火灾时高温对上桥面底部关键部位的影响,基于FDS建立典型双层悬索桥火灾数值模型,以上桥面底部温度观测线上的最高温度点为研究对象,分析大型车辆火灾时不同车辆火源功率和常见海面风级内向环境风速对最高温度及偏移距离的影响,并使用量纲分析法建立数学模型.结果表明:当热释放速率在 30～200 MW变化,内向环境风速在0.1～6.7 m/s变化时,最高温度与热释放速率成正比,与风速成反比,而最高温度点偏移距离与之相反;无量纲最高温度变化量与无量纲火源功率的0.8次幂呈正比,与无量纲内向风速呈负相关关系;无量纲最高温度点偏移距离与无量纲火源功率呈复杂的对数关系,总体趋势为负相关,与无量纲风速呈非线性递增的对数关系,趋势为正相关.因此,双层悬索桥车辆火灾中火源功率和内向风速对最高温度点的影响是竞争关系,本数学模型可用于桥梁防火设计和火灾现场最高温度点的准确预测.

外文标题：Study on the influence of inward ambient wind on fire temperature distribution of double-deck suspension bridge

外文摘要：In order to study the impact of high temperature on the key part of the bottom of the upper deck when a vehicle fire oc-curs in the lower deck of a double-deck suspension bridge,a typi-cal double-deck suspension bridge fire numerical simulation model is established based on the FDS,and the highest tempera-ture point on the temperature observation line at the bottom of the upper deck is taken as the research object to analyze the effect of the different vehicle fire powers and the inward ambient wind speeds of the common sea surface wind level on the temperature and offset distance of the highest temperature point on the tem-perature observation line in the case of a large vehicle fire.The quantitative analysis method is used to establish mathematical models.The results show that:when the heat release rate varies between 30 and 200 MW,and the inward ambient wind speed varies between 0.1 and 6.7 m/s,the temperature of the highest temperature point on the temperature observation line at the bot-tom of the upper bridge deck is directly proportional to the heat re-lease rate,and inversely proportional to the wind speed,and the offset distance of the highest temperature point is inversely propor-tional to the heat release rate;the amount of change of the dimen-sionless highest temperature is directly proportional to 0.8 power of the dimensionless fire heat release rate and is negatively corre-lated to the dimensionless inward wind speed;the dimensionless maximum temperature point offset distance has a complex loga-rithmic relationship with the dimensionless fire source power with an overall trend of negative correlation,and a nonlinear increasing logarithmic relationship with the dimensionless wind speed with a positive trend.Therefore,the effects of fire source power and in-ward wind speed on the maximum temperature point in vehicle fires on double-deck suspension bridges are competitive,and this mathematical model can be used for bridge fire protection design and accurate prediction of the maximum temperature point at the fire scene.

外文关键词：

double-deck suspension bridgevehicle fireengineer-ing thermologyfire dynamic simulationdimensional analysis

作者：

鲁佳明、张太科、安伟光、宋晓枫

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作者单位：

中国矿业大学安全工程学院,江苏徐州 221116

江苏省城市地下空间火灾防护高校重点实验室,江苏徐州 221116

广东湾区交通建设投资有限公司,广东广州 510699

关键词：

双层悬索桥车辆火灾工程热分析火灾数值模拟量纲分析

基金：

国家自然科学基金国家自然科学基金中央高校基本科研基金中央高校基本科研基金中国矿业大学"双一流"建设自主创新项目

项目编号：

51974298523742442021ZDPYYQ0042023ZDPYRH012022ZZCX05K02

出版年：

2024

DOI：

10.20168/j.1009-0029.2024.08.1051.08

消防科学与技术

中国消防协会

消防科学与技术

CSTPCD北大核心

影响因子：0.846

ISSN：1009-0029

年,卷(期)：2024.43(8)

参考文献量7