San Giorgio Pier

The facility has been realised in the 20’s and the vertical walls delimiting the quays are made of heavy concrete blocks; more recently, a further section has been added to the pier in order to increase berthing space and actually the pier measures 400 metres in length. Planned developments consist in dredging of the east basin from the actual 11 m to a water depth of 14 m, to allow berthing of bigger ships and has required the strengthening of the east wall

Aim of monitoring:

The quay wall has been equipped with 72 SOFO sensors (67 of them continuously functioning), installed in such a way to have 3 sensors for each measuring section. All sensors have an active length of 10 metres; sensors have been positioned at the 3 vertices of the service gallery located in the crown blocks, except in the last extension part, where no gallery was built: therefore in the last 5 sections only a pair of sensors have been installed in the upper surface of the crown block, underneath the pavement. Cabling of sensors has been organised in three groups (A, B, C, starting from the sea side), each one controlled by a junction box collecting 24 optical cables. The junction boxes are in turn connected to the reading unit by means of cables located in an underground duct. The reading unit is connected to the sensors through a programmable optical switch. Data are collected and stored in a computer database (SOFODB). In the next future, the reading unit will be connected to the Port of Genoa Information Network and the database will be made available on-line.

Main results:

A first analysis and interpretation of the data collected from the long-term monitoring system of the San Giorgio pier has shown that the structural behaviour can be characterised in terms of its response to environmental temperature variations.

Related Papers:

1. Long-term deformation monitoring of historical constructions with fiber optic sensors, D. Inaudi, N. Casanova, B. Glisic, 3rd International Seminar on Structural Analysis of Historical Constructions, Guimaraes, Portugal, November – (Univrsity of Minho Publisher, pp. 421-430) – 2001
2. Monitoring of harbor piers with fiber optic displacement sensors, D. Inaudi, G. Brunetti, A. Del Grosso, M. Fedolino, SPIE, 7th International Symposium on Smart Structures and Materials, Newport Beach, USA – (Vol 3995, p 175-179) – 2000
3. Strain and displacement monitoring of a quay wall in the Port of Genoa by means of fibre optic sensors, A. Del Grosso, D. Inaudi, F. Lanata, 2nd ENPC European Conference on Structural Control, Champs-sur Marne, France – 2000
4. Automatic and remote deformation monitoring of the Genoa San Giorgio pier using SOFO sensor, D. Inaudi, A. Del Grosso, F. Lanata, G. Brunetti, M. Fedolino , SPIE, 14th International Conference on Optical Fiber Sensors, Venice, Italy – (Vol 4185, p 242-245) – 2000
5. Analysis of long-term deformation data from the San Giorgio Habour pier in Genoa, D. Inaudi, A. Del Grosso, F. Lanata, SPIE, International symposium on NDE for health monitoring and diagnostics, Newport Beach, USA – (Vol 4337, p 459-465) – 2001
6. Monitoring of bridges and concrete structures with fiber optic sensors in Europe, A. Del Grosso, K. Bergmeister, D. Inaudi, U. Santa, IABSE conference on cable-supported bridges, Seoul, invited paper – 2001
7. Structural Health Monitoring of Harbour Piers, A. Del Grosso, Lanata, G. Brunetti, A. Pieracci, The 3rd International Conference on Structural Health Monitoring of Intelligent Infrastructure – SHMII-3, November 13-16 – (On Proceedings CD) – 2007