A new approach for simulating aerodynamic vibrations of structures in a wind tunnel—development of an experimental system by means of hybrid vibration technique |
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Authors: | M. Kanda A. KawaguchiT. Koizumi E. Maruta |
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Affiliation: | a Department of Architecture and Architectural Engineering, College of Industrial Technology, Nihon University, 1-2-1 Izumi, Narashino, Chiba 275-8575, Japanb Technical Research Institute, Obayashi Corporation, 4-640 Shimokiyoto, Kiyose, Tokyo, Japanc Design Department, Tokyo Head Office, Obayashi Corporation, 2-15-2 Kohnan, Minato, Tokyo, Japan |
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Abstract: | The present paper describes a newly proposed technique for simulating aerodynamic vibration of structures, which is referred to as the hybrid vibration technique or HVT. This technique is a combination of step-by-step computer calculation and measurement of the aerodynamic force acting on a model structure in a wind tunnel test. Even though the HVT can be applied effectively, problems still exist with respect to obtaining accurate simulations. These problems include response delay in controlling the model behavior and the inertia force component present in the measured aerodynamic force. Techniques for compensating for response delay and for eliminating inertia force from measured aerodynamic force are applied to a developed system based on HVT simulations of aerodynamic vibration of elastic structures and structures exhibiting elasto-plastic behavior are performed by means of the newly developed system. The effectiveness of the techniques for compensating for the response delay and eliminating the inertia force can be confirmed from the results of the simulations. In addition, the possibility and applicability of HVT is indicated. |
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Keywords: | Aerodynamic vibration Wind tunnel Unstable phenomena Vibration test Elasto-plastic behavior Wind loading |
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