The New Faliron steam-electric station, the first one in Greece, is a listed historical building. The initial structure was constructed at the start of the 20 th century but a number of interventions followed until the 1960s. The structure was built with natural stone masonry, steel trusses and floors (with jack arches and joist fillers) and concrete floors reinforced with twisted cold formed rebars. The 12.5m high masonries practically lack any lateral restraints while large openings (doors, windows) exist. This paper presents brief information on the history of the structure, phases of construction, description of structure (dimensions, types of structural systems, etc), material properties and pathology. In addition, detailed information is presented regarding the assessment performed in accordance with the current code specifications (Eurocodes), including seismic actions. Especially for the masonry, a detailed finite element model was developed, whereas the seismic forces were evaluated through alternative methodologies (modal response spectrum analysis per EC8 and time history analyses). For the assessment of the RC part a displacement based methodology was applied as it is restrained by the surrounding masonry walls. From the assessment analysis, useful conclusions are drawn regarding the seismic performance of high masonry structures without lateral restraints and the behaviour of similar industrial structures under seismic effects.
[1]
Luca Pelà,et al.
Seismic assessment of historical masonry construction including uncertainty
,
2014
.
[2]
Pedro Roca Fabregat,et al.
Assessment of structural damage in historical constructions using numerical models : the case of the church of the Poblet Monastery
,
2014
.
[3]
Carlos Sousa Oliveira,et al.
Seismic Vulnerability of Historical Constructions: A Contribution
,
2003
.
[4]
T. Paulay,et al.
Seismic Design of Reinforced Concrete and Masonry Buildings
,
1992
.
[5]
Luís Simões da Silva,et al.
Design of Steel Structures: Eurocode 3: Design of Steel Structures, Part 1-1: General Rules and Rules for Buildings
,
2010
.
[6]
Miha Tomazevic,et al.
Earthquake-Resistant Design of Masonry Buildings
,
1999
.