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Tuned liquid column damper for suppressing pitching motion of a floating rectangular box structure

Yin, Shih‐Hsun

This paper aims to investigate the possibility and effectiveness of applying a tuned liquid column damper (TLCD) to suppress pitching motion of a floating box structure. A mathematical model of the TLCD‐floating structure interaction system is developed, and the associated equations of motion are derived using a Lagrangian approach. Then, the procedures for numerically obtaining the optimum parameters of the TLCD for the undamped system under harmonic excitation are proposed using Den Hartog's method. The presented examples demonstrate that the TLCD can efficiently suppress the pitching motion of the floating box structure and has potential for applying to the development of floating housing.

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Tuned liquid column damper for suppressing pitching motion of a floating rectangular box structure

Yin, Shih‐Hsun

This paper aims to investigate the possibility and effectiveness of applying a tuned liquid column damper (TLCD) to suppress pitching motion of a floating box structure. A mathematical model of the TLCD‐floating structure interaction system is developed, and the associated equations of motion are derived using a Lagrangian approach. Then, the procedures for numerically obtaining the optimum parameters of the TLCD for the undamped system under harmonic excitation are proposed using Den Hartog's method. The presented examples demonstrate that the TLCD can efficiently suppress the pitching motion of the floating box structure and has potential for applying to the development of floating housing.

Tuned liquid column damper for suppressing pitching motion of a floating rectangular box structure

Yin, Shih‐Hsun

This paper aims to investigate the possibility and effectiveness of applying a tuned liquid column damper (TLCD) to suppress pitching motion of a floating box structure. A mathematical model of the TLCD‐floating structure interaction system is developed, and the associated equations of motion are derived using a Lagrangian approach. Then, the procedures for numerically obtaining the optimum parameters of the TLCD for the undamped system under harmonic excitation are proposed using Den Hartog's method. The presented examples demonstrate that the TLCD can efficiently suppress the pitching motion of the floating box structure and has potential for applying to the development of floating housing.

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Title:

Tuned liquid column damper for suppressing pitching motion of a floating rectangular box structure

Contributors:

Yin, Shih‐Hsun (author)

Published in:

Structural Control and Health Monitoring ; 24

Publication date:

2017-11-01

Size:

13 pages

ISSN:

1545-2263 , 1545-2255

DOI:

https://doi.org/10.1002/stc.2014

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

tuned liquid column damper , floating housing , vibration suppression

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