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福建某通信塔桅风致振动检测与风振控制

Wind-Induced Vibration Monitoring and Control of a Communication Tower in Fujian, China

  • 摘要: 针对福建沿海地区单管通信塔桅在自然风作用下振动显著,且现有减振措施缺乏实测验证的问题,本文以泉州某40 m高单管通信塔桅为研究对象,系统评估了调谐质量阻尼器(TMD)在实际工程中的风振控制性能。首先,采用现场实测方法,开展了自然风环境下的动力性能检测,利用受迫振动测试识别了结构的自振频率与周期等关键动力参数。其次,通过对比安装TMD前后的实测加速度与位移时程数据,量化评估了结构的响应减损效果。研究结果表明: TMD的引入对结构固有动力特性影响较小,其一阶自振频率变化幅度仅为3.74%,确保了原结构的动力稳定性。在自然风激励下,TMD展现出显著的减振效果,加速度峰值控制率达到33.70%~40.42%,位移峰值控制率达到35.77%~46.82%。研究结论实测数据验证了TMD在低成本单管塔桅风振控制中的工程适用性与有效性,研究成果可为沿海高耸结构的抗风减振设计与性能检测提供实测依据。

     

    Abstract: Aiming at the significant vibration response of monotube communication towers under natural wind loads in the coastal areas of Fujian and the lack of field-measured validation for control effects, this study takes a 40-meter-high monotube tower in Quanzhou as the research object to evaluate the wind-induced vibration control performance of Tuned Mass Dampers (TMD) in practical engineering. First, field vibration tests were conducted under ambient wind conditions, and the fundamental dynamic parameters, such as natural frequencies and periods, were identified through forced vibration testing. Second, the peak and root-mean-square (RMS) indicators were calculated based on the measured acceleration and displacement time-history data before and after the TMD installation to quantitatively assess its damping performance. The results indicate that the installation of the TMD does not significantly alter the inherent dynamic characteristics of the structure, with a variation in the first-order natural frequency of only 3.74%. Under natural wind excitation, the peak control rates for acceleration and displacement reach 33.70%~40.42% and 35.77%~46.82%, respectively. The study concludes that the field measurements verify the engineering applicability and effectiveness of TMDs in controlling wind-induced vibrations of low-cost monotube towers, providing a practical basis for the vibration detection and mitigation design of similar slender structures in coastal regions.

     

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