Shandong Science ›› 2024, Vol. 37 ›› Issue (5): 54-61.doi: 10.3976/j.issn.1002-4026.20230163

• Optical Fiber and Photonic Sensing Technology • Previous Articles     Next Articles

Method and application of concrete temperature monitoring for the Yellow River diversion sluice gates based on embedded distributed fiber optic sensing technology

QU Jikai1(), QI Yueqiang2, QU Shuai3,*()   

  1. 1. Shandong Yellow River Water Conservancy Bureau Engineering Construction Center, Jinan 250011, China
    2. Shandong Yellow River Shuncheng Water Conservancy and Hydropower Engineering Co., Ltd., Jinan 250032, China
    3. Laser Institute, Qilu University of Technology (Shandong Academy of Sciences), Jinan 250104, China
  • Received:2023-11-14 Online:2024-10-20 Published:2024-09-29
  • Contact: QU Shuai E-mail:3634629228@qq.com;qushuai@sdlaser.cn

Abstract:

Accurate measurement of temperature variations during the pouring and curing of concrete is of great importance for investigating concrete cracking during the construction of the Yellow River Diversion Project in the Yellow River Basin. Notably, the current construction projects involved in the Yellow River Diversion Project in the Yellow River Basin primarily use thermal imaging methods for surface temperature measurement, making it difficult to obtain real-time overall temperature characteristics of concrete. Therefore, to improve the ecological system of the Yellow River Basin and ensure high-quality development in the region, this research proposes a concrete-temperature monitoring method for the Yellow River Diversion Project based on implantable distributed fiber optic sensing;this method has been successfully used in the Yellow River Diversion Project in Shandong Province. Before concrete is poured, the sensing fiber opthic cable is prelaid on both sides of the involved structural-steel bars, enabling real-time and effective monitoring of the internal temperatures during the pouring and curing of concrete. This method is of great value for ensuring real-time analysis of the temperature of concrete throughout its lifecycle. Experimental results show that the use of implantable distributed fiber optic sensing allows real-time monitoring of temperature changes at various points in concrete and temperature anomalies during curing. Moreover, this method can be used to effectively analyze the overall temperature variation during curing. Using implantable distributed fiber optic sensing to monitor the concrete temperature for the Yellow River Diversion Project is of considerable reference value for similar engineering projects in the Yellow River Basin.

Key words: Yellow River Diversion Project, distributed fiber optic sensing, concrete, temperature monitoring

CLC Number: 

  • TN247