[1]陈兴海,王朋,于翠翠.鲁南某高速铁路岩溶塌陷风险评估及防治对策[J].高速铁路技术,2022,13(05):79-85.[doi:10.12098/j.issn.1674-8247.2022.05.016]
 CHEN Xinghai,WANG Peng,YU Cuicui.Risk Assessment and Countermeasures for Karst Collapse of a Highspeed Railway in Southern Shandong[J].HIGH SPEED RAILWAY TECHNOLOGY,2022,13(05):79-85.[doi:10.12098/j.issn.1674-8247.2022.05.016]
点击复制

鲁南某高速铁路岩溶塌陷风险评估及防治对策()
分享到:

《高速铁路技术》[ISSN:1674-8247/CN:51-1730/U]

卷:
13卷
期数:
2022年05期
页码:
79-85
栏目:
勘察设计
出版日期:
2022-10-01

文章信息/Info

Title:
Risk Assessment and Countermeasures for Karst Collapse of a Highspeed Railway in Southern Shandong
文章编号:
1674-8247(2022)05-0079-07
作者:
陈兴海1王朋1于翠翠2
(1. 中铁二院工程集团有限责任公司, 成都610031;2. 山东省地质测绘院, 济南250014)
Author(s):
CHEN Xinghai1WANG Peng1YU Cuicui2
(1. China Railway Eryuan Engineering Group Co. ,Ltd. ,Chengdu 610031 ,China; 2. Shandong GEO - Surveying & Mapping Institute ,Jinan 250014 ,China)
关键词:
高速铁路 岩溶塌陷 风险评估 防治对策
Keywords:
high-speed railwaykarst collapserisk assessmentprevention and control measures
分类号:
U238
DOI:
10.12098/j.issn.1674-8247.2022.05.016
文献标志码:
A
摘要:
本文以鲁南某高速铁路某段线路岩溶塌陷为研究对象,通过收集区域地质资料、现场水文地质调查 和理论分析计算等方法相结合,研究分析岩溶的发育形态和发育规律,从岩溶发育程度、覆盖层特征、地下水 动力条件及历史条件4 个方面,对铁路沿线两侧威胁较大的潜在岩溶塌陷区进行风险评估,并提出相应的工 程防治对策。本文研究成果对鲁南岩溶地区铁路勘察设计和施工具有重要参考价值。
Abstract:
In this paper,the karst collapse of a section of a high-speed railway in southern Shandong is researched,and the development form and development law of karst are studied and analyzed from four aspects: karst development degree,overburden characteristics,groundwater dynamic conditions,and historical conditions by combining regional geological data collection,onsite hydrogeological investigation,and theoretical analysis and calculation. The potential karst subsidence areas on both sides of the railway are risk-assessed and the corresponding engineering prevention and control countermeasures are put forward. The research results of this paper have significant reference value for railway survey,design,and construction in karst areas of southern Shandong.

参考文献/References:

[1] 易勇进, 宋章, 张广泽, 等. 高速铁路岩溶勘察技术研究现状及 展望[J]. 高速铁路技术, 2020, 11(1): 23 - 26. YI Yongjin, SONG Zhang, ZHANG Guangze, et al. Research Status and Prospect of Karst Reconnaissance Technology for High-Speed Railway[J]. High Speed Railway Technology, 2020, 11(1): 23 - 26.
[2] 曾德建, 王茂靖, 杜宇本. 汉江特大桥覆盖型岩溶地质特征及处 理措施研究[J]. 高速铁路技术, 2020, 11(5): 63 - 67. ZENG Dejian, WANG Maojing, DU Yuben. Research on Geological Characteristics of the Covered Karst and Treatment Measures for Hanjiang Super-Major Bridge[J]. High Speed Railway Technology, 2020, 11(5): 63 - 67.
[3] SAATY T L. Applications of Analytical Hierarchies[J]. Mathematics and Computers in Simulation, 1979, 21(1): 1 - 20.
[4] 周航, 陈仕阔, 刘彤, 等. 挤压性围岩大变形危险性评价的组 合赋权 - 理想点模型[J]. 中南大学学报(自然科学版), 2021, 52(10): 3647 - 3658. ZHOU Hang, CHEN Shikuo, LIU Tong, et al. Combination Weight and Ideal Point Method Model for Risk Evaluation on Squeezing Large Deformation[J]. Journal of Central South University( Science and Technology), 2021, 52(10): 3647 - 3658.
[5] 沈祥明, 刘坡拉, 汪继锋. 基于层次分析法的铁路岩溶隧道突水风险评价[J]. 铁道工程学报, 2010, 27(12): 56 - 63. SHEN Xiangming, LIU Pola, WANG Jifeng. Evaluation of Water- Inrush Risks of Karst Tunnel with Analytic Hierarchy Process[J]. Journal of Railway Engineering Society, 2010, 27(12): 56 - 63.
[6] 周航. 山岭隧道岩爆、大变形危险性评价的理想点模型及工程 应 用[D]. 成都: 西南交通大学, 2021. ZHOU Hang. Ideal Point Method Model for Risk Evaluation on Rockburst and Large Deformation of Mountain Tunnels and Its Application[D]. Chengdu: Southwest Jiaotong University, 2021.
[7] 陈仕阔, 周航, 廖昕, 等. 川藏铁路高地应力隧道减灾选线[J]. 地球科学, 2022, 47(3): 803 - 817. CHEN Shikuo, ZHOU Hang, LIAO Xin, et al. Line Selection for Disaster Reduction of High Geostress Tunnel on the Sichuan-Tibet Railway[J]. Earth Science, 2022, 47(3): 803 - 817.
[8] 李海良, 江思义, 潘兴鱼. 基于GIS 与AHP 法的岩溶塌陷危险性 评价[J]. 资源信息与工程, 2021, 36(3): 118 - 121. LI Hailiang, JIANG Siyi, PAN Xingyu. Evaluation of Karst Collapse Risks Based on GIS and AHP [J]. Resource Information and Engineering, 2021, 36(3): 118 - 121.
[9] 陈学军, 罗元华. GIS 支持下的岩溶塌陷危险性评价 [J]. 水文地 质工程地质, 2001, 28(4): 15 - 18. CHEN Xuejun, LUO Yuanhua. Karst Collapse Risk Assessment with Support[J]. Hydrogeology and Engineering Geology, 2001, 28(4): 15 - 18.

相似文献/References:

[1]王 旭.长大干线高速铁路自动化沉降监测系统研究[J].高速铁路技术,2017,8(06):68.[doi:10.12098/j.issn.1674-8247.2017.06.014]
 WANG Xu.Research of Automatic Settlement Monitoring System for Long Trunk High Speed Railway[J].HIGH SPEED RAILWAY TECHNOLOGY,2017,8(05):68.[doi:10.12098/j.issn.1674-8247.2017.06.014]
[2]林奎.成自铁路引入天府机场线路方案比选回顾[J].高速铁路技术,2022,13(05):91.[doi:10.12098/j.issn.1674-8247.2022.05.018]
 LIN Kui.Review of Comparison and Selection of Route Plans for the Connection of the Chengdu-Zigong High-speed Railway to Tianfu Airport[J].HIGH SPEED RAILWAY TECHNOLOGY,2022,13(05):91.[doi:10.12098/j.issn.1674-8247.2022.05.018]
[3]周宏,宋元胜.高速铁路引入铁路枢纽线路选线研究[J].高速铁路技术,2022,13(05):96.[doi:10.12098/j.issn.1674-8247.2022.05.019]
 ZHOU Hong,SONG Yuansheng.Study on Route Selection for Introducing High-speed Railways into Railway Hubs[J].HIGH SPEED RAILWAY TECHNOLOGY,2022,13(05):96.[doi:10.12098/j.issn.1674-8247.2022.05.019]
[4]陈 浩.基于动力分析的高速铁路钢轨磨耗预测方法研究[J].高速铁路技术,2022,13(06):17.[doi:10.12098/j.issn.1674-8247.2022.06.004 ]
 CHEN Hao.Study on Prediction Method of Rail Wear of High-speed Railway Based on Dynamic Analysis[J].HIGH SPEED RAILWAY TECHNOLOGY,2022,13(05):17.[doi:10.12098/j.issn.1674-8247.2022.06.004 ]
[5]董月龙.金建高速铁路大中河流水文计算分析[J].高速铁路技术,2022,13(06):79.[doi:10.12098/j.issn.1674-8247.2022.06.015 ]
 DONG Yuelong.Hydrological Calculation and Analysis of Large and Medium Rivers along Jinhua-Jiande High-speed Railway[J].HIGH SPEED RAILWAY TECHNOLOGY,2022,13(05):79.[doi:10.12098/j.issn.1674-8247.2022.06.015 ]
[6]王佩雷.复杂艰险山区高速铁路建设四电接口管理技术研究[J].高速铁路技术,2023,14(01):38.[doi:10.12098/j.issn.1674-8247.2023.01.007]
 WANG Peilei.A Study on Interface Management Technology of Communication, Signal,Electrical,and Electrification Systems for High-speed Railway Construction in Challenging Mountain Areas[J].HIGH SPEED RAILWAY TECHNOLOGY,2023,14(05):38.[doi:10.12098/j.issn.1674-8247.2023.01.007]
[7]戴龙钦,余少华,蔡康.合福高速铁路闽赣段防洪对策分析[J].高速铁路技术,2023,14(01):91.[doi:10.12098/j.issn.1674-8247.2023.01.017]
 DAI Longqin,YU Shaohua,CAI Kang.Analysis of Flood Control Measures for Fujian-Jiangxi Section of Hefei-Fuzhou High-speed Railway[J].HIGH SPEED RAILWAY TECHNOLOGY,2023,14(05):91.[doi:10.12098/j.issn.1674-8247.2023.01.017]
[8]尹航.沪渝蓉高速铁路(宜涪段)马鹿箐隧道选线研究[J].高速铁路技术,2023,14(01):106.[doi:10.12098/j.issn.1674-8247.2023.01.020]
 YIN Hang.A Study on Route Selection of Maluqing Tunnel of Shanghai-Chongqing-Chengdu High-speed Railway(Yichang-Fuling Section)[J].HIGH SPEED RAILWAY TECHNOLOGY,2023,14(05):106.[doi:10.12098/j.issn.1674-8247.2023.01.020]
[9]任俊桦.基于类比分析的高速铁路和城际铁路运量预测研究[J].高速铁路技术,2023,14(01):54.[doi:10.12098/j.issn.1674-8247.2023.01.010]
 REN Junhua.A Study on Forecast of Traffic Volume for High-speed Railway and Intercity Railway Based on Analog Analysis[J].HIGH SPEED RAILWAY TECHNOLOGY,2023,14(05):54.[doi:10.12098/j.issn.1674-8247.2023.01.010]
[10]陈明浩,李东,张广泽,等.西南山区高速铁路主要工程地质问题研究[J].高速铁路技术,2023,14(02):1.[doi:10.12098/j.issn.1674-8247.2023.02.001]
 CHEN Minghao,LI Dong,ZHANG Guangze,et al.A Study on Main Geological Problems of High-speed Railway in the Mountainous Area in Southwest China[J].HIGH SPEED RAILWAY TECHNOLOGY,2023,14(05):1.[doi:10.12098/j.issn.1674-8247.2023.02.001]

备注/Memo

备注/Memo:
收稿日期:2022 -04 -18
作者简介:陈兴海(1976 -),男,高级工程师。
更新日期/Last Update: 2022-10-01