Bridge and transport network resilience – a perspective

IF 1.5 Q3 ENGINEERING, CIVIL

Proceedings of the Institution of Civil Engineers-Bridge Engineering Pub Date : 2021-10-12 DOI:10.1680/jbren.21.00055

S. Mitoulis, M. Domaneschi, G. Cimellaro, J. Casas

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引用次数: 15

Abstract

Bridges and critical transport infrastructure (CTI) are primary infrastructure assets and systems that underpin human mobility and activities. Loss of the functionality of bridges has consequences on the entire transport network, which is also interconnected with other networks, therefore cascading events are expected in the entire system of systems, leading to significant economic losses, business, and societal disruption. Recent natural disasters revealed the vulnerabilities of bridges and CTI to diverse hazards (e.g. floods, blasts, earthquakes), some of which are exacerbated due to climate change. Therefore, the assessment of bridge and network vulnerabilities by quantifying their capacity and functionality loss and adaptation to new requirements and stressors is of paramount importance. In this paper, we try to understand what are the main compound hazards, stressors and threats that influence bridges with short-and long-term impacts on their structural capacity and functionality and the impact of bridge closures on the network operability. We also prioritise the main drivers of bridge restoration and reinstatement, e.g. its importance, structural, resources, organisational factors. The loss of performance, driven by the redundancy and robustness of the bridge, is the first step to be considered in the overall process of resilience quantification. Resourcefulness is the other main component of resilience here analysed.

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桥梁和运输网络弹性——一个视角

桥梁和关键交通基础设施(CTI)是支撑人类流动性和活动的主要基础设施资产和系统。桥梁功能的丧失会对整个交通网络造成影响，而整个交通网络也与其他网络相互连接，因此预计整个系统的系统中会发生级联事件，导致重大的经济损失、商业和社会混乱。最近的自然灾害揭示了桥梁和CTI在各种灾害(如洪水、爆炸、地震)面前的脆弱性，其中一些灾害由于气候变化而加剧。因此，通过量化其能力和功能损失以及对新要求和压力源的适应来评估桥梁和网络脆弱性至关重要。在本文中，我们试图了解影响桥梁的主要复合危害、压力源和威胁，并对其结构能力和功能产生短期和长期影响，以及桥梁合闸对网络可操作性的影响。我们亦会优先考虑桥梁修复和修复的主要驱动因素，例如其重要性、结构、资源和组织因素。由桥梁的冗余性和鲁棒性驱动的性能损失是整个弹性量化过程中要考虑的第一步。足智多谋是这里分析的弹性的另一个主要组成部分。

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

Proceedings of the Institution of Civil Engineers-Bridge Engineering ENGINEERING, CIVIL-

CiteScore

3.00

自引率

10.00%

发文量