Article ID Journal Published Year Pages File Type
6736075 Engineering Structures 2018 18 Pages PDF
Abstract
As such, this paper is chiefly concerned with the derivation of floor acceleration spectra for a special concentrically braced frame supporting a cylindrical storage tank, the latter being a basic strategic component widely used in several industrial applications and the former one being one of the most common forms of lateral-force resisting systems for plant structures. Firstly, a fibre-based finite element model of the supporting frame itself was developed within an open source platform and then nonlinear time history analyses were performed assuming a set of 47 natural ground motions scaled to 8 seismic intensities. These results, used to assess the tank as an uncoupled system, were additionally compared with those obtained by a second analysis run, in which the interaction between the supporting structure and the tank was explicitly accounted for by modelling them together. A well-known analytical model, consisting of two uncoupled single degree of freedom systems for the impulsive and convective components of motion, was considered in this case to reproduce the response of the tank. The floor spectra resulting from these two approaches were compared together so as to quantify trends and differences in the observed estimates. Sensitivity to the viscous damping was examined as well. A comparison was finally derived between the nonlinear dynamic analyses of both coupled and uncoupled systems and the analytical methods of current Codes (ASCE 7-10, EC8) and recent research proposals.
Related Topics
Physical Sciences and Engineering Earth and Planetary Sciences Geotechnical Engineering and Engineering Geology
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