Hybrid Shoring Design for the Courthouse Commons Tunnel in San Diego, California: Controlling and Predicting Ground Movements - NAT2022
- Organization:
- Society for Mining, Metallurgy & Exploration
- Pages:
- 10
- File Size:
- 3047 KB
- Publication Date:
- Dec 1, 2022
Abstract
Controlling and predicting ground movements are essential to the design of shoring systems. The Courthouse Commons tunnel in San Diego, California, included a 56-foot-deep temporary shaft as a launching point for tunneling using the Sequential Excavation Method (SEM). The rectangular shaft was unique in that it was surcharged on one wall by an 11-story building and employed a hybrid support of excavation design. An array of geotechnical instrumentation was used to monitor lateral and vertical movements at the ground surface. This paper compares the measured ground movement with the predicted ground movement from various excavation stages
Citation
APA: (2022) Hybrid Shoring Design for the Courthouse Commons Tunnel in San Diego, California: Controlling and Predicting Ground Movements - NAT2022
MLA: Hybrid Shoring Design for the Courthouse Commons Tunnel in San Diego, California: Controlling and Predicting Ground Movements - NAT2022. Society for Mining, Metallurgy & Exploration, 2022.