The Line C of Rome underground underpasses the historical city centre, facing significant problems for the presence of archaeological artefacts and the necessity to prevent damage to the historical and monumental heritage. This paper describes the field performance of a 30m deep excavation which has been constructed at a short distance from the Aurelian Walls at Porta Asinaria (III century). An extensive instrumentation program was conducted during construction, field observations including deflection of the diaphragm walls, ground movements, pore water pressures, settlements, and rotation of the Aurelian Walls . Observed ground settlements and diaphragm wall displacements were smaller than those monitored in other case histories worldwide, inducing no damage to the Aurelian Walls . The lessons learned from this case study showed that a stiff retaining system and a strict control of the construction sequence were the key to minimise the effects of a deep excavation with millennia of history at risk.
Observed performance of a deep excavation in the historical centre of Rome / Masini, L.; Gaudio, D.; Rampello, S.; Romani, E.. - In: JOURNAL OF GEOTECHNICAL AND GEOENVIRONMENTAL ENGINEERING. - ISSN 1090-0241. - 147:2(2021), pp. 1-39. [10.1061/(ASCE)GT.1943-5606.0002465]
Observed performance of a deep excavation in the historical centre of Rome
L. Masini
Primo
Writing – Original Draft Preparation
;D. GaudioSecondo
Writing – Review & Editing
;S. RampelloPenultimo
Supervision
;
2021
Abstract
The Line C of Rome underground underpasses the historical city centre, facing significant problems for the presence of archaeological artefacts and the necessity to prevent damage to the historical and monumental heritage. This paper describes the field performance of a 30m deep excavation which has been constructed at a short distance from the Aurelian Walls at Porta Asinaria (III century). An extensive instrumentation program was conducted during construction, field observations including deflection of the diaphragm walls, ground movements, pore water pressures, settlements, and rotation of the Aurelian Walls . Observed ground settlements and diaphragm wall displacements were smaller than those monitored in other case histories worldwide, inducing no damage to the Aurelian Walls . The lessons learned from this case study showed that a stiff retaining system and a strict control of the construction sequence were the key to minimise the effects of a deep excavation with millennia of history at risk.| File | Dimensione | Formato | |
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