Effect evaluation of landslide emergency treatment based on automatic monitoring: A case study of Tianchigong landslide in Tongzi County of Guizhou Province
ZHANG Hui, MO Si, TAN Haiying
No.106 Geological Party,Guizhou Bureau of Geology and Mineral Exploration and Development, Guizhou Zunyi 563000, China
Abstract:Landslide is the main type of geological hazard in mountain areas, which is a great threat to the important infrastructure. The research and monitoring about its formation mechanism is of great significance to the recognition and prevention of landslide. On the basis of field investigation of Tianchigong landslide, the authors in this paper comprehensively analyzed the landform, geomorphology, strata, lithology, geological structure and basic features of the landslide, and investigated the process of deformation and failure and the development trend in the landslide area. The horizontal displacement and vertical displacement of landslide surface, horizontal displacement of deep drilling, and the drilling gradient were monitored and comprehensively analyzed, combined with the comprehensive monitoring methods such as the real-time rainfall monitoring, drilling deep displacement monitoring and GNSS monitoring . The effect of the emergency treatment after landslide was evaluated based on the monitoring results. The results show that the stability of landslide is obviously improved after the emergency treatment, and the deformation trend is convergent. This research could provide technical support for the landslide rescue and the in-time operation of natural gas pipeline, and remarkable comprehensive benefits were obtained. The research vesults could provide important references for the emergency management of similar engineering landslide and effect evaluation.
张辉, 莫思, 谭海英. 基于综合监测的滑坡应急治理效果评价——以贵州省桐梓县天池宫滑坡为例[J]. 中国地质调查, 2023, 10(2): 87-93.
ZHANG Hui, MO Si, TAN Haiying. Effect evaluation of landslide emergency treatment based on automatic monitoring: A case study of Tianchigong landslide in Tongzi County of Guizhou Province. , 2023, 10(2): 87-93.
[1] 朱立军,黄润秋,朱要强,等.中国西南岩溶山地重大地质灾害成灾机理与监测预警系统研究[M].北京:科学出版社,2018. Zhu L J,Huang R Q,Zhu Y Q,et al.Study on Mechanism and Monitoring and Early Warning System of Major Geological Disasters in Karst Mountainous Areas of Southwest China[M].Beijing:Science Press,2018. [2] 铁永波,徐勇,张勇,等.南方山地丘陵区地质灾害调查工程主要进展与成果[J].中国地质调查,2020,7(2):1-12. Tie Y B,Xu Y,Zhang Y,et al.Main progresses and achievements of geological hazards survey in hilly area of southern China[J].Geol Surv China,2020,7(2):1-12. [3] 何文刚,李华章,贾亮亮,等.中缅天然气管线沿线滑坡变形监测与机理分析——以黔西南州沙子镇滑坡为例[J].人民长江,2020,51(5):138-143. He W G,Li H Z,Jia L L,et al.Deformation monitoring and mechanism analysis on landslide along China-Myanmar Natural Gas Pipeline:A case study of Shazi Town Landslide in west of Guizhou Province[J].Yangtze River,2020,51(5):138-143. [4] 许强. 滑坡的变形破坏行为与内在机理[J].工程地质学报,2012,20(2):145-151. Xu Q.Theoretical studies on prediction of landslides using slope deformation process data[J].J Eng Geol,2012,20(2):145-151. [5] 肖进. 重大滑坡灾害应急处置理论与实践[D].成都:成都理工大学,2009. Xiao J.Theory and Practice of the Treatment of Vital Landslide Hazard[D].Chengdu:Chengdu University of Technology,2009. [6] 许威,李鹏辉,盛玉兴,等.滑坡监测方法综述与展望[J].安徽建筑,2020,27(8):92-94,102. Xu W,Li P H,Sheng Y X,et al.Overview and prospect of landslide monitoring methods[J].Anhui Archit,2020,27(8):92-94,102. [7] 张帅,贺拿,钟卫,等.基于综合监测的滑坡变形特征的分析[J].工业建筑,2022,52(2):90-95. Zhang S,He N,Zhong W,et al.Analysis on deformation characteristics of landslides based on comprehensive monitoring[J].Ind Constr,2022,52(2):90-95. [8] 杨成业,张涛,高贵,等.SBAS-InSAR技术在西藏江达县金沙江流域典型巨型滑坡变形监测中的应用[J].中国地质灾害与防治学报,2022,33(3):94-105. Yang C Y,Zhang T,Gao G,et al.Application of SBAS-InSAR technology in monitoring of ground deformation of representative giant landslides in Jinsha river basin,Jiangda County,Tibet[J].Chin J Geol Hazard Control,2022,33(3):94-105. [9] 张勤,白正伟,黄观文,等.GNSS滑坡监测预警技术进展[J].测绘学报,2022,51(10):1985-2000. Zhang Q,Bai Z W,Huang G W,et al.Review of GNSS landslide monitoring and early warning[J].Acta Geod Cartographica Sin,2022,51(10):1985-2000. [10] 李时宜,李浩,季文斌,等.基于布里渊光时域反射仪的边坡监测光纤传感器结构[J].光子学报,2021,50(9):0906005. Li S Y,Li H,Ji W B,et al.Optical fiber sensing structure for slope monitoring based on brillouin optical time domain reflectometer[J].Acta Photonica Sin,2021,50(9):0906005. [11] 李旭辉,黄奕辉,吴兴颜,等.分布式光纤监测技术在边坡工程中的应用[J].南昌工程学院学报,2018,37(3):34-36,40. Li X H,Huang Y H,Wu X Y,et al.Application of distributed optical fiber monitoring technology in slope project[J].J Nanchang Inst Technol,2018,37(3):34-36,40. [12] 彭亮,杜文学,田浩.西宁市特大滑坡监测预警示范[J].科学技术与工程,2021,21(18):7806-7813. Peng L,Du W X,Tian H.Monitoring and early warning demonstration of huge landslide in Xining City[J].Sci Technol Eng,2021,21(18):7806-7813. [13] 郑中元,向晋源,邵勇,等.基于深部位移监测的反倾岩质滑坡形成机制与治理[J].中国市政工程,2020(4):87-90. Zheng Z Y,Xiang J Y,Shao Y,et al.Formation mechanism & treatment of anti-dip rock landslide based on deep displacement monitoring[J].China Munic Eng,2020(4):87-90. [14] 叶咸,高瑜,李果,等.滑坡深部位移监测孔合位移计算与分析[J].公路,2020,65(10):5-10. Ye X,Gao Y,Li G,et al.Calculation and analysis of combined displacement of deep displacement monitoring holes in landslide[J].Highway,2020,65(10):5-10. [15] 张霆浩. GNSS技术在滑坡监测中的应用研究[J].科技资讯,2022,20(9):92-94. Zhang T H.Application of GNSS technology in landslide monitoring[J].Sci Technol Inf,2022,20(9):92-94.
2023, Vol. 10 
