INVESTIGADORES
CURADELLI raul oscar
artículos
Título:
Damage detection in the structure of elevated spherical containers partially filled with liquid.
Autor/es:
CURADELLI, OSCAR; AMBROSINI, DANIEL
Revista:
ENGINEERING STRUCTURES
Editorial:
ELSEVIER SCI LTD
Referencias:
Año: 2011 vol. 33 p. 2708 - 2715
ISSN:
0141-0296
Resumen:
Damage detection through changes in the dynamic properties has received considerable attention in recent years. However, approaches in structures supporting tanks partially filled with liquid are scarce in the technical literature. In this paper, a numerical–experimental study of damage detection in coupled fluid–structure elevated spherical tank systems is presented. The main objective is to investigate the feasibility to detect structural damage in the support structure by monitoring changes in natural frequencies. The major difficulty arises due to the changes in natural frequencies when the liquid level varies. Thus, in order to gain insight into the dynamical behaviour of the spherical containers and distinguish between the frequency shift caused by container filling conditions or by structural damage, experimental free vibration tests with small vibration amplitudes on a scaled spherical tank model are performed. The dependency of the identified frequencies on the structural damage severity is studied assuming three increasing levels of damage in the support structure. The results indicate that it is possible to detect structural damage, with acceptable confidence, up to liquid filling level of 30%. Moreover, only the ‘‘associated structural frequency’’ reflects the structural damage with a perceptible drop. Next, a numerical model of a real spherical container that takes into account the coupling between fluid and structure is presented to demonstrate the usefulness and validity of the results.