The construction of super-large tunnels generates various safety risks that can hamper the tunneling process and cause severe damages if not properly identified.This paper presents a case study on the identification a...The construction of super-large tunnels generates various safety risks that can hamper the tunneling process and cause severe damages if not properly identified.This paper presents a case study on the identification and management of geological and environmental risks during the construction of the largest(a diameter of 15.8 m)slurry shield tunnel in China.Its ground conditions and settlement control were identified among the most challenging owing to a large area of mixed ground conditions,11 fault zones and tunneling under residential areas and the city’s Metro Lines 1 and 9.In response to the severity of these risks and challenges,novel monitoring systems,ground treatment,and safety management technologies were successfully implemented throughout the tunneling process.Further,a technical framework was proposed in this study to serve as a risk management guidance for analogous tunneling operations.展开更多
基金The research work was funded by“The Pearl River Talent Recruitment Program”,Guangdong Province,China in 2019(Grant No.2019CX01G338)the Research Funding of Shantou University for New Faculty Member,China(Grant No.NTF19024-2019).
文摘The construction of super-large tunnels generates various safety risks that can hamper the tunneling process and cause severe damages if not properly identified.This paper presents a case study on the identification and management of geological and environmental risks during the construction of the largest(a diameter of 15.8 m)slurry shield tunnel in China.Its ground conditions and settlement control were identified among the most challenging owing to a large area of mixed ground conditions,11 fault zones and tunneling under residential areas and the city’s Metro Lines 1 and 9.In response to the severity of these risks and challenges,novel monitoring systems,ground treatment,and safety management technologies were successfully implemented throughout the tunneling process.Further,a technical framework was proposed in this study to serve as a risk management guidance for analogous tunneling operations.