| 基于变权重−云模型的岩溶隧道涌突水灾害风险评估——以中梁山隧道为例 |
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| 引用本文: | 李 慧,魏兴萍,刘 程,等. 基于变权重−云模型的岩溶隧道涌突水灾害风险评估——以中梁山隧道为例[J]. 中国岩溶,2023,42(3):548-557, 572 doi: 10.11932/karst20230306 |
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| 作者姓名: | 李慧 魏兴萍 刘程 李良鑫 |
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| 作者单位: | 1.重庆师范大学地理与旅游学院, 重庆 401331;2.长江上游湿地科学研究重庆市重点实验室, 重庆 401331;3.重庆师范大学计算机软件学院, 重庆 401331 |
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| 基金项目: | 重庆市自然科学基金项目(cstc2021jcyj-msxmX0616);国家自然科学基金项目(42107355,41202135);重庆师大学三春湖创新项目(202201465) |
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| 摘 要: | 针对岩溶隧道涌突水的致险因素的不确定性、复杂性和隧道涌突水风险评价的主观性,以成渝中线中梁山岩溶隧道工程为背景,建立基于正态云模型的隧道涌突水风险评价方法。通过选取地层岩性、地质构造、地表汇水条件、隧道空间位置、地下水循环交替条件作为风险影响因素,构建涌突水风险评估体系;基于正态云模型确定的各影响因子数字特征及变权向量计算综合隶属度,最终判定岩溶隧道涌突水灾害风险等级。结果表明:成渝中线中梁山隧道涌突水灾害为“II级”与“Ⅴ级”之间,涌突水灾害发生可能性大且危害高,与实际开挖结果一致。文章构建的岩溶隧道涌突水灾害风险评估方法,实现了多元决策下的隧道涌突水灾害风险分级客观性,适合岩溶隧道的风险评估,为日后隧道质量控制和寿命评估提供参考。
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| 关 键 词: | 正态云模型 变权重 岩溶隧道 综合隶属度 涌突水灾害 |
| 收稿时间: | 2022-01-12 |
Risk assessment of water inrush disasters of karst tunnels based on variable weight-cloud model: A case study of Zhongliangshan tunnel |
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| LI Hui, WEI Xingping, LIU Cheng, LI Liangxin. Risk assessment of water inrush disasters of karst tunnels based on variable weight-cloud model: A case study of Zhongliangshan tunnel[J]. CARSOLOGICA SINICA, 2023, 42(3): 548-557, 572. doi: 10.11932/karst20230306 |
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| Authors: | LI Hui WEI Xingping LIU Cheng LI Liangxin |
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| Affiliation: | 1. School of Geography and Tourism, Chongqing Normal University, Chongqing 401331, China;2. Chongqing Key Laboratory of Wetland Science Research in the Upper Reaches of the Yangtze River, Chongqing 401331, China;3. College of Computer Software, Chongqing Normal University, Chongqing 401331, China |
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| Abstract: | In order to solve the uncertainty and complexity of risk factors and the subjectivity of risk assessment of water inrush disasters in karst tunnels, the risk of water inrush disaster has been scientifically assessed. According to the Zhongliangshan karst tunnel project on the middle route of Chengdu-Chongqing, the study constructed a risk assessment model of water inrush disasters in karst tunnels based on variable weight-cloud model. First of all, referring to the research methods of Wu Xin, Liu Dunwen and others, and consulting professors in the field of geological disasters and engineers from tunnel construction and inspection units, a total of 8 experts determined the grade and classification standard of each influencing factor on water inrush disasters of karst tunnels, and clarified the parameter value of each influencing factor of Zhongliangshan tunnel on the middle route of Chengdu-Chongqing. In this study, five influencing factors were selected to construct an index system of risk assessment of the water inrush in karst tunnels. These five factors include formation lithology (calcium carbonate content in strata and rock structure), geologic structures (water-conducting fault structure, water-blocking fault structure and fold structure), surface catchment conditions, tunnel spatial locations and alternating conditions of groundwater circulation. In addition, the grading standards of water inrush disasters were determined, and accordingly the disasters were divided into five risk levels, low, mild, moderate, high and highest.Firstly, the cloud model was used to determine digital characteristics of the risk level of each index. The diagram of membership cloud of each influencing factor was drawn by MATLAB. The single factor membership degree (μj(x)) of each influencing factor was calculated according to parameter values of water inrush disasters in karst tunnels. Secondly, the analytic hierarchy process (AHP) was used to determine the constant weight. In order to avoid the situation that the constant weight does not change with the state value of the index to be evaluated, the punitive variable weight method was used to determine the variable weight vector (W(x)) and the comprehensive membership degree (U). Finally, according to the principle of maximum membership degree, risk levels of water inrush disasters in karst tunnels were calculated, and water inrush disaster situations of 7 sections in Zhongliangshan Tunnel on the middle route of Chengdu-Chongqing were determined. The results show that water inrush disasters in Zhongliangshan tunnel are between level III and level VI, with a high risk. Among them, DK15 + 630-DK15 + 680 and DK16 + 750-DK16 + 78 are the sections with a moderate risk; DK16 + 020-DK16 + 460 are of high risk; DK14 + 720-DK15 + 630, DK15 + 680-DK16 + 020, DK16 + 460-DK16 + 750 and DK16 + 785-DK17 + 380 are the sections with a highest risk. Water inrush disasters of karst tunnels can be attributed to a variety of influencing factors. The parameter value of each influencing factor of the high-risk section is higher than that of the low-risk section, and the risk of water inrush disasters in a transition zone between a karst area and a non-karst area is the highest. With the large porosity, the developed karst, and active groundwater, the soluble rock stratum is a three-medium system of pores, fissures and pipelines, which provides conditions for the occurrence of water inrush disasters and thus increases disaster possibility.The assessment result is in consistency with the actual situation of water inrush and tunneling. The consistency indicates that the risk assessment index and its system are applicable to water inrush assessments in karst tunnel areas. The cloud model intuitively reflects a fuzzy membership of risk; the variable weight theory constructs an equilibrium function, and each index is weighted according to the specific situation. It is a good solution to the problem of mutual neutralization between the indexes in the risk assessment of water inrush in karst tunnels, which is conducive to observing the change range and relative importance of each index. The risk assessment method of water inrush disasters of karst tunnels constructed in this paper can realize the objectivity of risk classification of water inrush disasters in tunnels from a multiple decision-making perspective, which is applicable to the risk assessment of karst tunnels and provides reference for the tunnel quality control and life assessment in the future. |
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| Keywords: | normal cloud model variable weight theory karst tunnel comprehensive membership degree water inrush disaster |
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