• Title/Summary/Keyword: Superannuated fill dam

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Estimation of Reinforcement Effect of Superannuated Fill Dam Repaired by the Permeable Grouting Method (침투그라우팅이 시공된 노후필댐의 보수보강효과 평가)

  • Kim, Yungjin;Heo, Yol;Oh, Byunghyun
    • Journal of the Korean GEO-environmental Society
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    • v.8 no.6
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    • pp.45-52
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    • 2007
  • Maintenance of structural and hydrological safety of the superannuated fill dam is very important subject on the viewpoint of disaster prevention. Mainly, the core of the superannuated fill dams have been damaged continuously by the various harmful external forces such as the typhoons, flash floods and earthquake, and these can be connected to the large scaled general dam failure. Therefore, the research on the repair, remediation and reinforcement of dam is necessary. In this study, the permeable grouting method for the remediation of fill dam was examined by the electrical resistivity survey and the change of permeability of core front. As a result, the permeable grouting method can be useful remediation method for the superannuated fill dam, the leakage from the core front decreased greatly before and after the construction of grouting. Furthermore, it can be said that the turbidity of fill dam may not be greatly increased by grouting.

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Analysis of temperature monitoring data for leakage detection of earth dam (흙댐의 누수구역 판별을 위한 온도 모니터링 자료의 해석)

  • Oh, Seok-Hoon;Seo, Baek-Soo
    • Journal of Industrial Technology
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    • v.28 no.B
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    • pp.39-45
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    • 2008
  • Temperature variation according to space and time on the inner parts of engineering constructions(e.g.: dam, slope) can be a basic information for diagnosing their safety problem. In general, as constructions become superannuated, structural deformation(e.g.: cracks, defects) could be occurred by various factors. Seepage or leakage of water through these cracks or defects in old dams will directly cause temperature anomaly. Groundwater level also can be easily observed by abrupt change of temperature on the level. This study shows that the position of seepage or leakage in dam body can be detected by multi-channel temperature monitoring using thermal line sensor. For this, diverse temperature monitoring experiments for a leakage physical model were performed in the laboratory. In field application of an old earth fill dam, temperature variations for water depth and for inner parts of boreholes located at downstream slope were measured. Temperature monitoring results for a long time at the bottom of downstream slope of the dam showed the possibility that temperature monitoring can provide the synthetic information about flowing path and quantity of seepage of leakage in dam body.

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An Analysis of Geophysical and Temperature Monitoring Data for Leakage Detection of Earth Dam (흙댐의 누수구역 판별을 위한 물리탐사와 온도 모니터링 자료의 해석)

  • Oh, Seok-Hoon;Suh, Baek-Soo;Kim, Joong-Ryul
    • Journal of the Korean earth science society
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    • v.31 no.6
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    • pp.563-572
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    • 2010
  • Both multi-channel temperature monitoring and geophysical electric survey were performed together for an embankment to assess the leakage zone. Temperature variation according to space and time on the inner parts of engineering constructions (e.g.: dam and slope) can be basic information for diagnosing their safety problem. In general, as constructions become superannuated, structural deformation (e.g.: cracks and defects) could be generated by various factors. Seepage or leakage of water through the cracks or defects in old dams will directly cause temperature anomaly. This study shows that the position of seepage or leakage in dam body can be detected by multi-channel temperature monitoring using thermal line sensor. For that matter, diverse temperature monitoring experiments for a leakage physical model were performed in the laboratory. In field application of an old earth fill dam, temperature variations for water depth and for inner parts of boreholes located at downstream slope were measured. Temperature monitoring results for a long time at the bottom of downstream slope of the dam showed the possibility that temperature monitoring can provide the synthetic information about flowing path and quantity of seepage of leakage in dam body. Geophysical data by electrical method are also added to help interpret data.