標題: | An analytical and experimental study of TLCD for structural vibration control |
作者: | Wang, Y. P. Lee, C. L. Hwu, T. H. Chen, L. 土木工程學系 Department of Civil Engineering |
關鍵字: | TLCD;TMD;high-rise building;vibration control;headloss coefficient;shaking table |
公開日期: | 2005 |
摘要: | Tuned Liquid Column Damper (TLCD), an integration of vibration control damper with the fire protection hydraulic tank, is considered to be a substitute of the conventional tuned mass dampers (TMD) for vibration control of high-rise buildings. It possesses advantageous features as being easy-tuning, dual-function, maintenance-free and cost-effective. The TLCD system is, in most literature, analyzed as a linear dynamic system by introducing an equivalent viscous damping coefficient related to a constant headloss coefficient and a certain steady-state sloshing amplitude. In this study, the dynamic characteristics of TLCD systems with various orifice sizes have been investigated via component tests using harmonic excitations at various driving frequencies. The headloss coefficients have also been identified with a proposed system identification procedure based on ARX model. It is found that the smaller the opening size, the larger the headloss coefficient; and, the stronger the disturbing amplitude, the smaller the headloss coefficient. In addition, a series of shaking table tests of an aluminum modal frame with and without TLCD has been conducted to verify the effectiveness of adopting TLCD system for structural control. Numerical predictions of the liquid sloshing displacement and structural responses by the proposed analytical model with the experimentally identified headloss coefficient agree very well with the test data, verifying adequacy of the proposed analytical model. Further parametric analysis indicates that the longer the horizontal part the more pronounced the controlling effect. Moreover, if the horizontal portion is restrained due to practical considerations, increasing the tube diameter of the vertical segment may further improve the controlling effect. Finally, the numerical simulation of structural vibration control using TLCD system for Taipei 101 building has also illustrated in this paper. |
URI: | http://hdl.handle.net/11536/17938 |
ISBN: | 7-5641-0188-1 |
期刊: | ISISS 2005: Innovation & Sustainability of Structures, Vol 1-3 |
起始頁: | 1271 |
結束頁: | 1283 |
Appears in Collections: | Conferences Paper |