Multimode damping optimization of a long-span suspension bridge with damped outriggers for suppressing vortex-induced vibrations

Long-span suspension bridges are subjected to wind-induced vibrations due to their large flexibility and low damping. Damped outriggers have been proposed recently to supplement damping and suppress multimode vibrations of main girders of long-span bridges, e.g., vortex-induced vibrations. However,...

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Bibliographic Details
Published in:Engineering structures 2023-07, Vol.286, p.115959, Article 115959
Main Authors: Liu, Zhanhang, Chen, Lin, Sun, Limin, Zhao, Lin, Cui, Wei, Guan, Hua
Format: Article
Language:English
Subjects:
Damped outrigger
Design optimization
Genetic algorithm
Mode tracking
Suspension bridge
Vortex-induced vibration
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Summary:Long-span suspension bridges are subjected to wind-induced vibrations due to their large flexibility and low damping. Damped outriggers have been proposed recently to supplement damping and suppress multimode vibrations of main girders of long-span bridges, e.g., vortex-induced vibrations. However, when installed at multiple positions including tower-girder junction points and girder ends to further improve multimode damping effect, damping effects of the damped outriggers are interdependent. Additionally, the frequency curves of adjacent modes with respect to varying parameters of the damping devices could approach and intersect with each other, making it difficult to track mode orders and modal damping variations in design optimization. This study therefore proposes an optimization method to design damped outrigger parameters for maximizing multimode damping of the bridge. First, the bridge with damped outriggers is modeled generally using finite element method for dynamic analysis. Subsequently, two critical issues in the design, i.e., the mode tracking and multi-objective optimization, are respectively addressed by using the modal assurance criterion and the genetic algorithm. The proposed method is then applied to the Xihoumen Bridge with a main span of 1650 m. The results show that through the proposed optimization, 6 out of 7 modes vulnerable to vortex-induced vibrations can reach a damping ratio over 1.0%, which cannot be achieved by using damped outriggers of a uniform size. Furthermore, the required damper coefficients are decreased by 49.4%. The flexibility of the outriggers has been considered in the design. The developed method is promising in the design of other types bridge damping devices, e.g., multiple tuned mass dampers. •A method proposed for optimizing multiple damped outriggers for a suspension bridge.•Mode tracking in optimization addressed using the Modal Assurance Criterion.•Damper size reduced by 50% through optimization in the case study of a suspension bridge.•Balanced damping improvement for multiple modes achieved through the optimization.
ISSN:0141-0296
1873-7323
DOI:10.1016/j.engstruct.2023.115959