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Sloshing suppression by floating baffle

Kang, Hooi Siang and Md. Arif, Ummul Ghafir and Kim, Kyung Sung and Kim, Moo Hyun and Liu, Yu Jie and Lee, Kee Quen and Wu, Yun Ta (2019) Sloshing suppression by floating baffle. Ocean Systems Engineering, 9 (4). pp. 409-422. ISSN 2093-6702

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Official URL: http://dx.doi.org/10.12989/ose.2019.9.4.409

Abstract

Sloshing is a phenomenon which may lead to dynamic stability and damages on the local structure of the tank. Hence, several anti-sloshing devices are introduced in order to reduce the impact pressure and free surface elevation of liquid. A fixed baffle is the most prevailing anti-sloshing mechanism compared to the other methods. However, the additional of the baffle as the internal structure of the LNG tank can lead to frequent damages in long-term usage as this structure absorbs the sloshing loads and thus increases the maintenance cost and downtime. In this paper, a novel type of floating baffle is proposed to suppress the sloshing effect in LNG tank without the need for reconstructing the tank. The sloshing phenomenon in a membrane type LNG tank model was excited under sway motion with 30% and 50% filling condition in the model test. A regular motion by a linear actuator was applied to the tank model at different amplitudes and constant period at 1.1 seconds. Three pressure sensors were installed on the tank wall to measure the impact pressure, and a high-speed camera was utilized to record the sloshing motion. The floater baffle was modeled on the basis of uniform-discretization of domain and tested based on parametric variations. Data of pressure sensors were collected for cases without- and with-floating baffle. The results indicated successful reduction of surface run-up and impulsive pressure by using a floating baffle. The findings are expected to bring significant impacts towards safer sea transportation of LNG.

Item Type:Article
Uncontrolled Keywords:Floating baffle, Sloshing
Subjects:T Technology > TJ Mechanical engineering and machinery
Divisions:Mechanical Engineering
ID Code:89377
Deposited By: Widya Wahid
Deposited On:09 Feb 2021 08:26
Last Modified:09 Feb 2021 08:26

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