Volume 39 Issue 3
Jun.  2025
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Article Navigation >  GEOTECHNICAL ENGINEERING TECHNIQUE  > 2025  >  39(3): 409-415
Huang Xiaolin, Wang Jialong, Li Yong, Yu Tao, Yang Lei, Huang Cangcheng. Characteristic analysis of GPR forward simulation of pipeline leakage abnormal based on FDTD[J]. GEOTECHNICAL ENGINEERING TECHNIQUE, 2025, 39(3): 409-415. doi: 10.20265/j.cnki.issn.1007-2993.2024-0204
Citation: Huang Xiaolin, Wang Jialong, Li Yong, Yu Tao, Yang Lei, Huang Cangcheng. Characteristic analysis of GPR forward simulation of pipeline leakage abnormal based on FDTD[J]. GEOTECHNICAL ENGINEERING TECHNIQUE, 2025, 39(3): 409-415. doi: 10.20265/j.cnki.issn.1007-2993.2024-0204
shu

Characteristic analysis of GPR forward simulation of pipeline leakage abnormal based on FDTD

doi: 10.20265/j.cnki.issn.1007-2993.2024-0204

  • Hunan Lianzhi Technology Co., Ltd., Changsha 410200, Hunan, China

  • Received Date: 2024-05-14
  • Accepted Date: 2024-08-29
  • Rev Recd Date: 2024-07-06
  • Publish Date: 2025-06-09
    Abstract
  • Based on the obvious electrical difference between the abnormal area of pipeline leakage and the surrounding soil, a high-resolution, strong anti-jamming, high-efficiency, and non-destructive Ground Penetrating Radar (GPR) detection and imaging technology was proposed to solve the problem of accurate identification of abnormal seepage area of underground pipeline. To improve the recognition of radar image features of underground pipeline leakage, the Finite Difference Time Domain (FDTD) method was used to simulate the GPR electromagnetic wave response characteristics of different material pipelines, different filling, different leakage locations, and ranges. The migration imaging technique was introduced to concentrate the energy scattered on both sides of the object, thereby correctly repositioning the reflected waves. This approach effectively enhances the lateral resolution of GPR profiles. A characteristic spectrum for forward modeling of underground pipeline leaks was established and it provides a theoretical foundation for the interpretation of actual GPR detection images. The results show that the GPR method can accurately identify the leakage anomaly with clear and obvious features at the effective detection depth. The research results can provide references for the detection and identification of underground pipeline leakage.

     

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    • References(17)
  • [1]
    王帅超. 城市地下管道渗漏引起的路面塌陷机理分析与研究[D]. 郑州: 郑州大学, 2017. (WANG S C. Analysis and study on subsidence mechanisms of road caused by leakage of urban underground pipeline[D]. Zhengzhou: Zhengzhou University, 2017. (in Chinese)

    WANG S C. Analysis and study on subsidence mechanisms of road caused by leakage of urban underground pipeline[D]. Zhengzhou: Zhengzhou University, 2017. (in Chinese)
    [2]
    范立岗, 任小强, 谢海涛, 等. 地质雷达在顶管施工管线周边土体病害检测中的运用[J]. 北京测绘,2020,34(9):1293-1296. (FAN L G, REN X Q, XIE H T, et al. The application of ground penetrating radar in detecting soil diseases around pipe jacking construction pipelines[J]. Beijing Surveying and Mapping,2020,34(9):1293-1296. (in Chinese)

    FAN L G, REN X Q, XIE H T, et al. The application of ground penetrating radar in detecting soil diseases around pipe jacking construction pipelines[J]. Beijing Surveying and Mapping, 2020, 34(9): 1293-1296. (in Chinese)
    [3]
    陈昌彦, 肖 敏, 贾 辉, 等. 城市道路地下病害成因及基于综合探测的工程分类探讨[J]. 测绘通报,2013(S2):5-9. (CHEN C Y, XIAO M, JIA H, et al. The genesis of urban underground roads diseases and classification of engineer[J]. Bulletin of Surveying and Mapping,2013(S2):5-9. (in Chinese)

    CHEN C Y, XIAO M, JIA H, et al. The genesis of urban underground roads diseases and classification of engineer[J]. Bulletin of Surveying and Mapping, 2013(S2): 5-9. (in Chinese)
    [4]
    刘春明, 魏慧勇, 张海军. 城市道路塌陷与地下管线的关系[J]. 城市勘测,2020(5):183-187. (LIU C M, WEI H Y, ZHANG H J. Relationship between urban road collapse and underground pipeline[J]. Urban Geotechnical Investigation & Surveying,2020(5):183-187. (in Chinese)

    LIU C M, WEI H Y, ZHANG H J. Relationship between urban road collapse and underground pipeline[J]. Urban Geotechnical Investigation & Surveying, 2020(5): 183-187. (in Chinese)
    [5]
    曾雄鹰, 王佳龙, 梁晓东, 等. 基于双频高动态探地雷达技术的道路地下病害检测研究[J]. 地球物理学进展,2022,37(5):2225-2232. (ZENG X Y, WANG J L, LIANG X D, et al. Research on road underground disease detection by dual-frequency GPR based on high-dynamic range technology[J]. Progress in Geophysics,2022,37(5):2225-2232. (in Chinese)

    ZENG X Y, WANG J L, LIANG X D, et al. Research on road underground disease detection by dual-frequency GPR based on high-dynamic range technology[J]. Progress in Geophysics, 2022, 37(5): 2225-2232. (in Chinese)
    [6]
    朱幸福, 高 将, 程 鹏. 城市地下排水管道缺陷检测与修复[J]. 江苏建筑职业技术学院学报,2017,17(1):64-66. (ZHU X F, GAO J, CHENG P, et al. Defect detection and repair of urban underground drainage pipeline[J]. Jiangsu Vocational Institute of Architecture Technology,2017,17(1):64-66. (in Chinese)

    ZHU X F, GAO J, CHENG P, et al. Defect detection and repair of urban underground drainage pipeline[J]. Jiangsu Vocational Institute of Architecture Technology, 2017, 17(1): 64-66. (in Chinese)
    [7]
    刘 海, 黄肇刚, 岳云鹏, 等. 地下管线渗漏环境下探地雷达信号特征分析[J]. 电子与信息学报,2022,44(4):1257-1264. (LIU H, HUANG Z G, YUE Y P. Characteristics analysis of ground penetrating radar signals for groundwater pipe leakage environment[J]. Journal of Electronics & Information Technology,2022,44(4):1257-1264. (in Chinese)

    LIU H, HUANG Z G, YUE Y P. Characteristics analysis of ground penetrating radar signals for groundwater pipe leakage environment[J]. Journal of Electronics & Information Technology, 2022, 44(4): 1257-1264. (in Chinese)
    [8]
    胡群芳, 郑泽昊, 刘 海, 等. 三维探地雷达在城市市政管线渗漏探测中的应用[J]. 同济大学学报(自然科学版),2020,48(7):972-981. (HU Q F, ZHENG Z H, LIU H, et al. Application of 3D ground penetrating radar to leakage detection of urban underground pipes[J]. Journal of Tongji University (Natural Science),2020,48(7):972-981. (in Chinese)

    HU Q F, ZHENG Z H, LIU H, et al. Application of 3D ground penetrating radar to leakage detection of urban underground pipes[J]. Journal of Tongji University (Natural Science), 2020, 48(7): 972-981. (in Chinese)
    [9]
    金 鑫. 管线渗漏异常探地雷达数据的电场分量成像分析[J]. 煤田地质与勘探,2018,46(2):159-163. (JIN X. Study on electric field component imaging of leakage in pipeline using GPR[J]. Coal Geology & Exploration,2018,46(2):159-163. (in Chinese)

    JIN X. Study on electric field component imaging of leakage in pipeline using GPR[J]. Coal Geology & Exploration, 2018, 46(2): 159-163. (in Chinese)
    [10]
    韩 雪, 张 彬. 基于FDTD管线渗漏异常GPR数据的电场分量成像研究[J]. 数学的实践与认识,2018,48(19):323-328. (HAN X, ZHANG B. Study on electric field component imaging based on GPR data of abnormal FDTD leakage in pipeline[J]. Mathematics in Practice and Theory,2018,48(19):323-328. (in Chinese)

    HAN X, ZHANG B. Study on electric field component imaging based on GPR data of abnormal FDTD leakage in pipeline[J]. Mathematics in Practice and Theory, 2018, 48(19): 323-328. (in Chinese)
    [11]
    李方震, 沈宇鹏, 黄乐艺, 等. 探地雷达识别管线渗漏病害的试验研究[J]. 城市地质,2017,12(1):20-29. (LI F Z, SHEN Y P, HUANG L Y, et al. Study on application of test method for GPR pipeline seepage defects[J]. Urban Geology,2017,12(1):20-29. (in Chinese)

    LI F Z, SHEN Y P, HUANG L Y, et al. Study on application of test method for GPR pipeline seepage defects[J]. Urban Geology, 2017, 12(1): 20-29. (in Chinese)
    [12]
    王佳龙, 曾雄鹰, 梁晓东, 等. 地下金属与非金属管道正演模拟与应用研究[J]. 现代电子技术,2023,46(5):114-118. (WANG J L, ZENG X Y, LIANG X D, et al. Research on forward modeling and application of underground metallic and nonmetallic pipelines[J]. Modern Electronics Technique,2023,46(5):114-118. (in Chinese)

    WANG J L, ZENG X Y, LIANG X D, et al. Research on forward modeling and application of underground metallic and nonmetallic pipelines[J]. Modern Electronics Technique, 2023, 46(5): 114-118. (in Chinese)
    [13]
    梁小强, 杨道学, 张可能, 等. FDTD数值模拟在GPR管线探测中的应用[J]. 地球物理学进展,2017,32(4):1803-1807. (LIANG X Q, YANG D X, ZHANG K N, et al. Application of FDTD numerical simulation of Ground Penetrating Radar inpipeline detection[J]. Progress in Geophysics,2017,32(4):1803-1807. (in Chinese)

    LIANG X Q, YANG D X, ZHANG K N, et al. Application of FDTD numerical simulation of Ground Penetrating Radar inpipeline detection[J]. Progress in Geophysics, 2017, 32(4): 1803-1807. (in Chinese)
    [14]
    YEE K. Numerical solution of initial boundary value problems involving maxwell’s equations in isotropic media[J]. IEEE Transactions on Antennas and Propagation,1966,14(3):302-307. doi: 10.1109/TAP.1966.1138693
    [15]
    张 军, 陈思茹, 张子琛, 等. 基于GPR和F-K法的桥面隐性病害无损检测方法[J]. 中国公路学报,2016,29(7):110-116. (ZHANG J, CHEN S R, ZHANG Z C, et al. Non-destructive detection method for bridge hidden diseases based on GPR and F-K method[J]. China Journal of Highway and Transport,2016,29(7):110-116. (in Chinese)

    ZHANG J, CHEN S R, ZHANG Z C, et al. Non-destructive detection method for bridge hidden diseases based on GPR and F-K method[J]. China Journal of Highway and Transport, 2016, 29(7): 110-116. (in Chinese)
    [16]
    李光辉, 徐 汇, 刘 敏. 基于探地雷达杂波抑制与偏移成像的树木根系定位方法[J]. 农业机械学报,2022,53(3):206-214. (LI G H, XU H, LIU M. Tree-Root localization method based on migration imaging with clutter suppressed in ground-penetrating radar[J]. Transactions of the Chinese Society for Agricultural Machinery,2022,53(3):206-214. (in Chinese)

    LI G H, XU H, LIU M. Tree-Root localization method based on migration imaging with clutter suppressed in ground-penetrating radar[J]. Transactions of the Chinese Society for Agricultural Machinery, 2022, 53(3): 206-214. (in Chinese)
    [17]
    邓方进. 探地雷达钢筋正演模拟及偏移成像研究[J]. 隧道建设(中英文),2019,39(S1):188-193. (DENG F J. Forward modeling and migration imaging of rebar detection by ground penetrating radar[J]. Tunnel Construction,2019,39(S1):188-193. (in Chinese)

    DENG F J. Forward modeling and migration imaging of rebar detection by ground penetrating radar[J]. Tunnel Construction, 2019, 39(S1): 188-193. (in Chinese)
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