Title of article
Optimized SMA Dampers in Vibration Control of Jacket-type Offshore Structures (Regular Waves)
Author/Authors
Ghasemi, Mohammad Reza Department of Civil Engineering - University of Sistan and Baluchestan, Zahedan , Shabakhty, Naser School of Civil Engineering - Iran University of Science & Technology, Tehran , Enferadi, Mohammad Hadi University of Sistan and Baluchestan, Zahedan
Pages
11
From page
25
To page
35
Abstract
Undesired oscillations of jacket platform may influence the structural
functionality and sometimes fatigue occurs. The main objective of this
research is to control wave-induced vibrations of fixed jacket platforms with
the use of optimized shape memory alloys dampers. To model the hysteretic
behavior of SMA elements and performing dynamic analysis an efficient
isothermal idealized constitutive model is developed in this research and direct
integration time history analysis is carried out. Dynamic responses of multidegree
of freedom system of jacket platform, with 90 m height and equipped
with SMA dampers, is estimated and compared with the bare jacket.
Furthermore, an optimization algorithm such as Ideal Gas Molecules
Movements (IGMM) is implemented in this research to improve the efficiency
of the dampers and minimize the deck displacements under the action of
extreme wave. The results show that the optimized SMA dampers can
improve the structural response by decreasing 47.5 percent of deck
displacement, 56.5 percent of deck acceleration and finally 28 percent of base
shear. In an SMA damper-equipped platform, reduced wave intensity will
reduce the damper efficiency.
Keywords
Vibration Control , Steel Jacket Platforms , Shape Memory Alloys (SMA) , Idealized Constitutive Model
Journal title
Astroparticle Physics
Serial Year
2019
Record number
2468059
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