Seismic Response of a Large LNG Storage Tank Based on a Shaking Table Test

• Published in: Applied sciences Vol. 12; no. 15; p. 7663
• Main Authors: Chen, Zengshun, Xu, Zhengang, Liu, Yang, Fu, Jun, Cheng, Huayan, Zhang, Likai, Xue, Xuanyi
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.08.2022
• Subjects: Bearings; Damping; Design techniques; Dynamic response; Earthquake loads; earthquake response; foundation isolation; Insulation; Liquefied natural gas; Seismic isolation; Seismic response; Seismic waves; Sensors; Shake table tests; shaking table test; simplified mechanical model; Storage tanks; Structural forms
• ISSN: 2076-3417; 2076-3417
• DOI: 10.3390/app12157663

In order to study the dynamic response of the LNG storage tank under the action of seismic load and the seismic isolation effect of the lead-core rubber bearing, this paper establishes the experimental storage tank model with reference to the structural form of the large-scale LNG storage tank, and the seismic response of the test tank is obtained using a shaking table test. Simplified mechanical models of non-isolated and isolated storage tanks are proposed and the seismic responses of the corresponding storage tanks are calculated using the Newmark-beta method. Under the action of seismic waves with different acceleration peaks, the results show that (a) more excitation directions of the seismic wave can lead to the greater acceleration and displacement response of the tank and (b) the isolation bearing has a damping effect on the acceleration response of the storage tank, but it has an amplifying effect on the displacement of the storage tank. Comparing the results of the simplified model and the shaking table test, it is found that the change trend of the acceleration response of the experimental results and simplified mechanical models is the same. The spectral characteristic curve of them is not large, which verifies the effectiveness of the simplified model.