Experimental study on distributed optical fiber-based approach monitoring saturation line in levee engineering

•We designed a DTS-based experimental platform monitoring the saturation line in levee engineering.•The DTS-based monitoring experiment of saturation line in levee engineering is implemented on this platform.•We proposed a DTS-based approach monitoring the saturation line in levee engineering. Seepa...

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Published in:Optics and laser technology 2018-02, Vol.99, p.19-29
Main Authors: Su, Huaizhi, Li, Hao, Kang, Yeyuan, Wen, Zhiping
Format: Article
Language:English
Subjects:
Conductivity
Distributed optical fiber temperature sensor system
Engineering
Experiments
Hazards
Heat transfer
Heating
Levee engineering
Mathematical models
Model test
Moisture content
Monitoring
Porous media
Saturation
Saturation line monitoring
Seepage
Slope stability
Structural stability
Temperature sensors
Thermal conductivity
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container_title Optics and laser technology
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creator Su, Huaizhi
Li, Hao
Kang, Yeyuan
Wen, Zhiping
description •We designed a DTS-based experimental platform monitoring the saturation line in levee engineering.•The DTS-based monitoring experiment of saturation line in levee engineering is implemented on this platform.•We proposed a DTS-based approach monitoring the saturation line in levee engineering. Seepage is one of key factors which affect the levee engineering safety. The seepage danger without timely detection and rapid response may likely lead to severe accidents such as seepage failure, slope instability, and even levee break. More than 90 percent of levee break events are caused by the seepage. It is very important for seepage behavior identification to determine accurately saturation line in levee engineering. Furthermore, the location of saturation line has a major impact on slope stability in levee engineering. Considering the structure characteristics and service condition of levee engineering, the distributed optical fiber sensing technology is introduced to implement the real-time observation of saturation line in levee engineering. The distributed optical fiber temperature sensor system (DTS)-based monitoring principle of saturation line in levee engineering is investigated. An experimental platform, which consists of DTS, heating system, water-supply system, auxiliary analysis system and levee model, is designed and constructed. The monitoring experiment of saturation line in levee model is implemented on this platform. According to the experimental results, the numerical relationship between moisture content and thermal conductivity in porous medium is identified. A line heat source-based distributed optical fiber method obtaining the thermal conductivity in porous medium is developed. A DTS-based approach is proposed to monitor the saturation line in levee engineering. The embedment pattern of optical fiber for monitoring saturation line is presented.
doi_str_mv 10.1016/j.optlastec.2017.06.032
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An experimental platform, which consists of DTS, heating system, water-supply system, auxiliary analysis system and levee model, is designed and constructed. The monitoring experiment of saturation line in levee model is implemented on this platform. According to the experimental results, the numerical relationship between moisture content and thermal conductivity in porous medium is identified. A line heat source-based distributed optical fiber method obtaining the thermal conductivity in porous medium is developed. A DTS-based approach is proposed to monitor the saturation line in levee engineering. 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Seepage is one of key factors which affect the levee engineering safety. The seepage danger without timely detection and rapid response may likely lead to severe accidents such as seepage failure, slope instability, and even levee break. More than 90 percent of levee break events are caused by the seepage. It is very important for seepage behavior identification to determine accurately saturation line in levee engineering. Furthermore, the location of saturation line has a major impact on slope stability in levee engineering. Considering the structure characteristics and service condition of levee engineering, the distributed optical fiber sensing technology is introduced to implement the real-time observation of saturation line in levee engineering. The distributed optical fiber temperature sensor system (DTS)-based monitoring principle of saturation line in levee engineering is investigated. An experimental platform, which consists of DTS, heating system, water-supply system, auxiliary analysis system and levee model, is designed and constructed. The monitoring experiment of saturation line in levee model is implemented on this platform. According to the experimental results, the numerical relationship between moisture content and thermal conductivity in porous medium is identified. A line heat source-based distributed optical fiber method obtaining the thermal conductivity in porous medium is developed. A DTS-based approach is proposed to monitor the saturation line in levee engineering. 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subjects Conductivity
Distributed optical fiber temperature sensor system
Engineering
Experiments
Hazards
Heat transfer
Heating
Levee engineering
Mathematical models
Model test
Moisture content
Monitoring
Porous media
Saturation
Saturation line monitoring
Seepage
Slope stability
Structural stability
Temperature sensors
Thermal conductivity
title Experimental study on distributed optical fiber-based approach monitoring saturation line in levee engineering
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