AI Article Synopsis

  • The study focuses on greenhouse gas (GHG) emissions in subway tunnel construction, particularly using the shield method, an area where research is limited.
  • A GHG emission quantification model was developed using life cycle assessment (LCA) to evaluate a subway shield tunnel project, highlighting that material production is the largest contributor to emissions.
  • The findings reveal that 1 km of subway shield tunnel construction emits over 19,000 tons of CO2 equivalent, emphasizing the need for environmentally friendly practices in urban railway projects to meet carbon reduction goals.

Article Abstract

The shield method is a commonly used construction technique in subway tunnel engineering. However, studies on greenhouse gas (GHG) emissions specifically in subway shield tunnel engineering are lacking. This study aims to investigate the GHG emission characteristics and GHG reduction pathways during the construction period of subway shield tunnels. Firstly, based on the life cycle assessment (LCA) method, a greenhouse gas (GHG) emission quantification model for the shield tunnel construction period was developed using a multi-level decomposition of construction. Then, the GHG emission level and intensity during the construction period of a case project are quantified, and its emission characteristics and GHG reduction potential points are assessed. Finally, a comprehensive path for GHG reduction in subway shield tunnel engineering is proposed. The research results indicate that constructing 1 km of subway shield tunnel can generate 19,294.28 t COeq. Among these, material production element dominates the emissions with a percentage of 89.05%, while transportation and mechanical construction elements contribute 1.81% and 9.14%, respectively. From the structure perspective, the main structure contributes 88.73% of total emissions, while the ancillary structure contributes 11.27%. Among them, the working shaft and tunnel segments are the main sources of emissions for the main structure, accounting for 23.65% and 65.08%, respectively. Connecting channel and end reinforcement are the main emission sources of the ancillary structures, accounting for 43.63% and 31.30%, respectively. These findings provide a scientific foundation for the environmentally friendly transformation of urban railway development regarding pursuing "carbon peaking and carbon neutrality" strategic goals.

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Source
http://dx.doi.org/10.1007/s11356-024-34826-1DOI Listing

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