This paper is published in Volume 2, Issue 10, 2017
Area
Marine Structures.
Author
Vijay Parmar
Co-authors
Malay Trivedi, Kishan Parmar
Org/Univ
Charted Engineer, Gujarat, India
Keywords
Triple Pendulum, Vibration Control, Resistance against Shocks Waves, Behavior of Pendulum, Damping, Tuned Mass Damper, Experimental Investigation.
Citations
IEEE
Vijay Parmar, Malay Trivedi, Kishan Parmar. Stabilization of Floating Body with Triple Pendulum, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARnD.com.
APA
Vijay Parmar, Malay Trivedi, Kishan Parmar (2017). Stabilization of Floating Body with Triple Pendulum. International Journal of Advance Research, Ideas and Innovations in Technology, 2(10) www.IJARnD.com.
MLA
Vijay Parmar, Malay Trivedi, Kishan Parmar. "Stabilization of Floating Body with Triple Pendulum." International Journal of Advance Research, Ideas and Innovations in Technology 2.10 (2017). www.IJARnD.com.
Vijay Parmar, Malay Trivedi, Kishan Parmar. Stabilization of Floating Body with Triple Pendulum, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARnD.com.
APA
Vijay Parmar, Malay Trivedi, Kishan Parmar (2017). Stabilization of Floating Body with Triple Pendulum. International Journal of Advance Research, Ideas and Innovations in Technology, 2(10) www.IJARnD.com.
MLA
Vijay Parmar, Malay Trivedi, Kishan Parmar. "Stabilization of Floating Body with Triple Pendulum." International Journal of Advance Research, Ideas and Innovations in Technology 2.10 (2017). www.IJARnD.com.
Abstract
This paper presents an innovative method to stabilize any floating body caused by vibration due to sea waves, lateral movement, wind force and other causing forces with the use of the three-degree pendulum. Use of tuned mass dampers (TMD) is most common in high rise buildings, in ships or in bridges. In Single degree pendulum there is the only radial way to move and to counteract vibrations caused in any structure or floating bodies. Using three-degree pendulum in floating bodies like ships gives three degrees of freedom to pendulum to resist shocks occurring in this type of floating bodies. A parametric study is carried out to see the behavior of this type of bodies without dampers, with single-degree pendulum and three-degree pendulum. The response of floating bodies to shocks was observed for varying conditions.
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