%0 Journal Article
%T An experimental study on tuned liquid damper for mitigation of structural response
%A Emili Bhattacharjee
%A Lipika Halder and Richi Prasad Sharma
%J International Journal of Advanced Structural Engineering
%D 2013
%I 
%R 10.1186/2008-6695-5-3
%X This paper investigates the performance of unidirectional tuned liquid damper (TLD) that relies upon the motion of shallow liquid in a rigid tank for changing the dynamic characteristics of a structure and dissipating its vibration energy under harmonic excitation. A series of experimental tests are conducted on a scaled model of structure-tuned liquid damper systems to evaluate their performance under harmonic excitation. One rectangular and one square TLD with various water depth ratios are examined over different frequency ratios, and time histories of accelerations are measured by precisely controlled shaking table tests. The behaviour of TLD is also studied by changing the orientation of the rectangular TLD subjected to the given range of harmonic excitation frequencies. The effectiveness of TLD is evaluated based on the response reduction of the structure. From the study, it is found that for each TLD, there exists an optimum water depth that corresponds to the minimum response amplitude, and the maximum control of vibration is obtained under resonance condition with the attachment of TLD.
%K Harmonic excitation
%K Tuned liquid dampers
%K Liquid sloshing
%K Energy dissipation
%K Response control
%K Selection of TLD parameters
%U http://www.advancedstructeng.com/content/5/1/3/abstract