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Past, Present, and Future of Engineering under Uncertainty: Safety Assessment and Management Read chapter Read first chapter

2013 | OriginalPaper | Chapter

Design of a Tuned Liquid Damper System for Seismic Vibration Control of Elevated Water Tanks

Authors : Anuja Roy, Aparna (Dey) Ghosh

Published in: Proceedings of the International Symposium on Engineering under Uncertainty: Safety Assessment and Management (ISEUSAM - 2012)

Publisher: Springer India

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Abstract

In this paper, a Tuned Liquid Damper (TLD) system is proposed for the response mitigation of an elevated water tank structure under seismic excitation. First, a study on the performance of the TLD system attached to an elevated water tank structure modelled as a single-degree-of-freedom (SDOF) system is carried out in the frequency domain. Fluid-structure interaction is not considered in the present study. A realistic example of an elevated water tank structure is considered. The performance of the TLD system is examined on the basis of reduction in the root mean square (rms) value of the structural displacement. The sensitivity of the performance of the TLD system to change in the structural frequency due to fluctuation in the amount of water in the water tank container is examined. A time domain study is also carried out with the recorded accelerogram of the El Centro earthquake as the base input. The procedure to obtain a practical configuration of the TLD units is outlined. The performance of the designed TLD system indicates that the TLD is a promising device for the seismic vibration control of elevated water tanks.

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previous chapter Slope Reliability Analysis Using the First-Order Reliability Method
next chapter Structural Reliability Evaluation and Optimization of a Pressure Vessel Using Nonlinear Performance Functions
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Metadata
Title
Design of a Tuned Liquid Damper System for Seismic Vibration Control of Elevated Water Tanks
Authors
Anuja Roy
Aparna (Dey) Ghosh
Copyright Year
2013
Publisher
Springer India
Book
Proceedings of the International Symposium on Engineering under Uncertainty: Safety Assessment and Management (ISEUSAM - 2012)

Print ISBN: 978-81-322-0756-6

Electronic ISBN: 978-81-322-0757-3

Copyright Year: 2013

DOI
https://doi.org/10.1007/978-81-322-0757-3_34