Article ID Journal Published Year Pages File Type
293060 Journal of Wind Engineering and Industrial Aerodynamics 2013 17 Pages PDF
Abstract

The mechanisms and onset conditions related to dry inclined bridge stay cable galloping have been studied both experimentally and analytically over the past two decades. The existing literatures are however limited to the smooth flow condition, of which the unsteady/turbulent nature of natural wind is ignored. This inconsistent flow condition from the site could potentially distort the actual aerodynamic interactions between a cable and the oncoming wind, and lead to an improper solution for designing vibration controlling means for stay cables. In view of this, the current paper aims at proposing a quasi-steady analytical approach to qualitatively study the effects of unsteady/turbulent wind on the aerodynamic behavior of an inclined cable. The impact of unsteady/turbulent flow on the aerodynamic stability of an inclined and/or yawed cable in unsteady flow conditions is extensively studied. Results suggest that the existence of flow unsteadiness in the natural wind may increase the risk of a stay cable to experience galloping type of motion. In addition, a case study is presented to evaluate the aerodynamic stability of a real bridge stay cable in unsteady wind. The critical onset conditions predicted by the proposed model are found to agree well with the site observations.

► Proposed a quasi-steady analytical approach for aerodynamic behavior of a cable in unsteady wind. ► The impact of turbulence intensity and the role of different turbulence components are examined. ► A wavelet-based unsteady wind model is developed to consider the time variation of mean wind speed. ► Presence of turbulence theoretically increases the risk of inclined cable galloping. ► The proposed model successfully predicted a cable vibration incident on site.

Related Topics
Physical Sciences and Engineering Energy Renewable Energy, Sustainability and the Environment
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