Post-disaster emergency monitoring system and data analysis for a continuous rigid frame bridge in mountain area

IF 3.6 2区 工程技术 Q1 ENGINEERING, CIVIL
Yanjie Zhu, Yuchen Wang, Wen Xiong, Kaiwen Hu
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引用次数: 0

Abstract

Bridges are subject to deterioration over time and unexpected disasters, such as traffic-induced fire, explosion, etc. Considering the sensor equipment and maintenance cost, the lightweight monitoring system is highly demanded for in-service small and medium-span bridges or bridges with an emergent request, such as post-disaster monitoring. This paper introduced a real practice of the post-disaster emergency monitoring system designed for a continuous rigid frame bridge in a mountain area in China. Considering bridge structural mechanical features and budget limits, the dynamic deformation of the bridge girder and bridge pier inclination are two major monitored objectives to timely identify the bridge deformation and dynamic features. Moreover, to precisely identify structural performance, the temperature variation is an indispensable monitoring content. Hence, this system consists of only three types of sensors, including the photoelectric deflection meter, the inclinometer, and the temperature–humidity sensor. In detail, this 330 m continuous rigid frame bridge with five spans, 45 + 80 \(\times\) 3 + 45 m, is entirely and efficiently monitored using 8 sensors. The entire system was installed within four days after the traffic-induced fire accident. The dynamic deflection is recorded to evaluate the structural load capacity and dynamic features considering the temperature variations. Three months’ measurements are interpreted and discussed in this paper, which can prove the non-contacted deflection meters are practical for long-term monitoring. But limits exist for the sensors’ stability, because of the considerable temperature difference in mountain areas, which will affect the meters’ supports. In summary, the efforts of this paper contribute to the research and practice gap of lightweight and emergency monitoring systems, especially for post-disaster requests. Based on a three-month data survey, we demonstrate the stability and feasibility of the proposed post-disaster monitoring system for bridge safety assessment.

Abstract Image

山区连续刚架桥灾后应急监测系统及数据分析
桥梁会随着时间的推移而老化,也会受到交通引发的火灾、爆炸等突发灾害的影响。考虑到传感器设备和维护成本,在役中小跨径桥梁或有灾后监测等紧急需求的桥梁,对轻型监测系统的需求很大。本文介绍了为中国某山区连续刚构桥设计的灾后应急监测系统的实际应用。考虑到桥梁结构力学特性和预算限制,以桥梁梁体动态变形和桥墩倾斜度为两大监测目标,及时识别桥梁变形和动态特性。此外,为精确识别结构性能,温度变化也是不可或缺的监测内容。因此,该系统仅由三种传感器组成,包括光电挠度仪、倾角仪和温湿度传感器。具体来说,这座 330 米长的连续刚架桥共有五跨,跨度为 45 + 80 \(\times\) 3 + 45 米,使用 8 个传感器就能对其进行全面有效的监控。整个系统是在交通引发火灾事故后四天内安装完成的。对动态挠度进行记录,以评估结构的承载能力和考虑到温度变化的动态特征。本文对三个月的测量结果进行了解释和讨论,证明非接触式挠度测量仪可用于长期监测。但由于山区温差较大,会影响测量仪的支撑,因此传感器的稳定性存在限制。总之,本文的研究成果填补了轻型应急监测系统的研究和实践空白,尤其是针对灾后需求的监测系统。基于三个月的数据调查,我们证明了所建议的灾后桥梁安全评估监测系统的稳定性和可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Civil Structural Health Monitoring
Journal of Civil Structural Health Monitoring Engineering-Safety, Risk, Reliability and Quality
CiteScore
8.10
自引率
11.40%
发文量
105
期刊介绍: The Journal of Civil Structural Health Monitoring (JCSHM) publishes articles to advance the understanding and the application of health monitoring methods for the condition assessment and management of civil infrastructure systems. JCSHM serves as a focal point for sharing knowledge and experience in technologies impacting the discipline of Civionics and Civil Structural Health Monitoring, especially in terms of load capacity ratings and service life estimation.
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