High-rise towers are very sensitive to wind loads because of their high flexibility. Wind-induced resonance vibrations due to Karman vortex street have great impact on these structures, especially for the high empty cylindrical shell towers. In a petrochemical enterprise, a few local cracks were detected in some empty towers and the wind-induced resonance vibrations were considered to be responsible for that. In this paper, by employing software SW6 and ANSYS, the tower cracking cause was analyzed with emphasis on the simulation of local structure response for an empty tower under wind loads. It can be found that the stress level was quite severe at the head-skirt conjunctions which were consistent with those actual cracking positions.

Volume Subject Area:
Design and Analysis
Topics:
Pipes, Resonance, Structural response analysis, Vibration, Wind, Stress, Cracking (Materials), Fracture (Process), Computer software, Fracture (Materials), Petrochemicals, Simulation, Vortex street
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Copyright © 2010
 by ASME
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