Jorge Gomes scite author profile

Self-excitation of the motion of a structure has become a prominent aspect of engineering projects over recent years as designers are using materials at their limits, causing structures to become progressively lighter, more flexible and, therefore, prone to vibrate. Stimulated by the increasing interest in fluid-structure interaction (FSI) problems, this study investigated the instability and consequent FSI-induced self-excited oscillation of flexible structures in uniform flows at Reynolds numbers between 10 and 1.69 × 10 5 . The investigations were performed in both water and a highly viscous syrup (ν = 1.64 × 10 −4 m 2 s −1 ) and considered three structures of different geometries. The results were conclusive in showing that the motion of the structure was characterized by a sequence of oscillation modes as a function of the characteristics of the structure and flow properties. In addition, it was possible to identify the self-excitation mechanisms as being of the instability-induced excitation (IIE) or movement-induced excitation (MIE) types. IIE was observed to be the most dominant mechanism of excitation at lower velocities and it was defined by a direct relation between the flow fluctuation and natural frequencies of the structure. For that reason, IIE was strongly determined by the geometry of the front body of the structure. At higher velocities, the amplitudes of the flow disturbances generated by the structure movement increased and excitations of the MIE type became predominant for all structures. The MIE mechanism was found to be weakly influenced by the shape of the structure but very sensitive to its dynamic characteristics and to the properties of the fluid, especially the Reynolds number.

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Jorge Gomes

Dynamic monitoring of a concrete arch dam during the first filling of the reservoir

Experimental Study on a Fluid-Structure Interaction Reference Test Case

Experimental and numerical study on a laminar fluid–structure interaction reference test case

Vibration-based damage detection of a concrete arch dam

Fluid–structure interaction-induced oscillation of flexible structures in laminar and turbulent flows

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