Abstract
The construction of bridge is a complex process and involves diverse energy emission-intensive materials. The evaluation of environmental impacts on the basis of life cycle assessment (LCA) is a recognised technique to find the scope of impact mitigation and save resources. However, the studies on the LCA of bridges are rare and lack assessment on the impact of public transportation during bridge construction. The purpose of this study was to develop an integrated exergy-based LCA model for assessing the environmental sustainability of bridges by investigating their environmental impacts and exergy footprint. The proposed exergy-based LCA model consists of three principal assessment models, namely, the environmental impact of energy consumption, pollutant discharge, and resource consumption. The proposed model was then exemplified with a highway bridge as a case study. The results found that the environmental impact in the raw material production and processing stage was the largest, followed by the construction stage and the operation and maintenance stage at second and third place, respectively. The findings of this study can contribute to mitigating the environmental impacts of bridge construction, and the assessment approach can be adopted to guide the environmental impact evaluation for other types of civil constructions globally.
Highlights
As one of the leading industries contributing to global economic growth, construction has tremendous impacts on resource depletion, greenhouse gas emission, and global warming [1,2]
To quantify the environmental impact of major pollutants with long-term impacts, this study focused on the pollutants that cause climate warming and acidification issues, including pollutant emissions (CO2, SO2, and NOx ) and particulate matter (PM) emissions
The present study proposed an integrated exergy-based life cycle assessment (LCA) model for evaluating the overall environmental impact of bridge constructions, which mainly focused on the exergy assessment of the environmental impact of (1) energy consumption, (2) pollutant discharge, and (3) resource consumption at four stages of bridge constructions
Summary
As one of the leading industries contributing to global economic growth, construction has tremendous impacts on resource depletion, greenhouse gas emission, and global warming [1,2]. The average amount of worldwide construction output is projected to increase 85% by 2030, wherein China is expected to be one of the most influential countries in this growth [3]. To fulfil the target of the Paris Agreement, China has announced determined policies to achieve a peak in carbon emissions by 2030 and carbon neutrality by 2060, which aims to mitigate the climate-warming issue. Bridge construction has experienced remarkably rapid development in China.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
