| 高速公路雾区多气候耦合段概率风险分析 |
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| 引用本文: | 李晓雷,唐伯明,宋强辉.高速公路雾区多气候耦合段概率风险分析[J].西南交通大学学报,2018,53(5):1039-1047. |
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| 作者姓名: | 李晓雷 唐伯明 宋强辉 |
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| 摘 要: | 高速公路雾区路段常伴随雨、冰、雪等复杂气候,综合考虑雾与雨、雪、冰等复杂因素耦合对高速公路事故风险评估具有重要意义. 引入“场”理论,构建高速公路雾区风险场模型,并基于模型对雾区多气候耦合路段的参数指标和道路风险进行分级研究. 首先,截取典型雾区路段进行栅格化分析,构建高速公路雾区风险场;然后引入PRA方法进行雾区风险场链式风险叠加分析,构建雾区风险场数值模型;最后以G5高速雅安至石棉段作为分析实例对模型进行验证,基于场理论给出了与当前国内气象预警分级相匹配的高速公路雾区耦合段风险分级指标,并将雾区路段的风险分级为四级,其中行车风险等级最高的为第1级.研究结果表明:场理论适用于多气候耦合的高速公路雾区段风险分析;高速公路雾区风险场是一种数量场和不稳定场,其不稳定性主要表现为雾区路段各气候参数的时变性;风险分级结果综合考虑了道路线形和环境特征以及基于时间变化的道路气候耦合特征,风险分级指标更符合基于时间动态变化的道路交通风险特性.
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| 关 键 词: | 概率风险分析 雾区风险场 风险等值面 风险指标 |
| 收稿时间: | 2017-06-12 |
Probabilistic Risk Analysis of Multi-Climatic Coupling Sections of Expressway in Fog Area |
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| LI Xiaolei,TANG Boming,SONG Qianghui.Probabilistic Risk Analysis of Multi-Climatic Coupling Sections of Expressway in Fog Area[J].Journal of Southwest Jiaotong University,2018,53(5):1039-1047. |
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| Authors: | LI Xiaolei TANG Boming SONG Qianghui |
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| Abstract: | The fog sections of an expressway often experience fog accompanied by rain, ice, or snow, as well as other complex climatic conditions. Therefore, evaluating and researching the accident risk of an expressway with consideration of the coupling of complex factors such as fog, rain, snow, and ice has great significance. On the basis of field theory, a risk field model of an expressway in a fog area was established, and the parameters and risk classification of coupling sections in fog and multi-climate areas of the expressway were studied based on the model. First, rasterization of the typical fog sections of the expressway was performed to construct the risk field. Then, the method of probabilistic risk analysis (PRA) was used to analyse the risk field in the fog area and the chain risk, and the numerical model of the risk field in the fog area was constructed. Finally, the model was validated for the G5 Ya-an to Shi-mian expressway. The results show that field theory is more suitable for risk analysis of multi-climate-coupled fog areas of the expressway. The risk field in the fog area of the expressway is a number field as well as an unstable field, and its instability mainly manifests as the time variability of each climatic parameter in the fog area. Based on field theory, the risk classification index of the multi-climatic coupling section of the expressway in the fog area was provided, the index was matched with the current domestic meteorological warning classification, and the risk of the fog section was classified into four levels, with the traffic risk level being the highest. |
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