Authors: Sungnam Hong, Sun-Kyu Park, Jieun Jeong, Jinwoong Choi

Abstract:

In this study, a new procedure for inspecting damages on LNG storage tanks was proposed with the use of structural diagnostic techniques: i.e., nondestructive inspection techniques such as macrography, the hammer sounding test, the Schmidt hammer test, and the ultrasonic pulse velocity test, and destructive inspection techniques such as the compressive strength test, the chloride penetration test, and the carbonation test. From the analysis of all the test results, it was concluded that the LNG storage tank cover was in good condition. Such results were also compared with the Korean concrete standard specifications and design values. In addition, the remaining life of the LNG storage tank was estimated by using existing models. Based on the results, an LNG storage tank cover performance evaluation procedure was suggested.

Keywords: Destructive test, LNG storage tank, Nondestructive test, Performance evaluation procedure, Remaining life.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1334684

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 3147

References:

[1] Ministry of Knowledge Economy, Republic of Korea, Korea Gas R´╝åD Division, Gas energy strategy, technology roadmap, Myungmoon Printing Ltd, Seoul, 2008, pp.677-686.
[2] Young H. Kim, Churl-Hyun Jo, Seong Jin Lim, "Inspection of Underground Slurry Wall for LNG Storage Tank", Journal of The Korean Society for Nondestructive Testing, vol. 23, no. 2, 2003, pp.107-115.
[3] S. H. Kil, W. J. Kim, Y.D. Jo, "Non Destructive Technology for LNG Polyethylene Electrofusion Joints", conf. korea society for precision engineering, vol. 2010, no.May, 2010, pp.1007-1008.
[4] Kim Tae Wan ,Hong Sung Nam ,Han Kyoung Bong ,Park Sun Kyu, "Inspection of A Deteriorated Bridge Pier Cap Using Common Nondestructive and Destructive Test", Journal of the Korea institute for structural maintenance inspection, vol. 12, no. 2, 2008, pp.91-102.
[5] Ryall. M.J., Bridge management, Butterworth- Heinemann, Woburn, MA 01801-204136~51, 2001.
[6] Chul Park ,Ji-seung Jung, Dae-hong Min, Safety diagnosis and maintenance of civil engineering structures, DongHwaTechnology Publishing, Gyeonggi-do, 2007, pp.51-81, 89-102.
[7] Korea Concrete Institute, the Design Code for Concrete , Korea Concrete Institute, Seoul, 2009, pp.19, 340-341.
[8] Gang seong-hu, Practices and safety diagnosis of civil structures, Goomibook, Seoul, 2001, pp.99-101.
[9] Seung-ho Mun, Yong-Suk Kim, Concrete crack control: Cause investigation, evaluation, and repair and reinforcement, kimoondang, 2010, pp.307.
[10] Sung-woo Shin, Non-destructive tests ´╝å measurement engineering for structures, Goomibook, Seoul, 2006, pp.61-75, 137-146.
[11] Sung-woo Shin, Korea structural maintenance and inspection engineering, Goomibook, Seoul, 2006, pp.109-119, 244-250.
[12] Hyung-jun An, Safe diagnosis of concrete structures, Goomibook, Seoul, 1999, pp.157-173, 112-128, 157-173, 193-212.
[13] Jongdeuk Lee, Concrete structures: non-destructive diagnostic, Ilkwang, Seoul, 2010, pp.32-48.
[14] John H. Bungey, Stephen G., Michael G. Grantham, Testing of concrete in structures 4th edition, Taylor & Francis, Great Britain, 2006, pp.8-17.