Development of jacket platform tsunami risk rating system in waters offshore North Borneo
This work details the simulation of tsunami waves generated by seaquakes in the Manila Trench and their effect on fixed oil and gas jacket platforms in waters offshore North Borneo. For this study, a four-leg living quarter jacket platform located in a water depth of 63m is modelled in SACS v5.3. Ma...
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Harbin Engineering University
2016
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my.utp.eprints.256672021-08-27T09:39:33Z Development of jacket platform tsunami risk rating system in waters offshore North Borneo Lee, H.E. Liew, M.S. Mardi, N.H. Na, K.L. Toloue, I. Wong, S.K. This work details the simulation of tsunami waves generated by seaquakes in the Manila Trench and their effect on fixed oil and gas jacket platforms in waters offshore North Borneo. For this study, a four-leg living quarter jacket platform located in a water depth of 63m is modelled in SACS v5.3. Malaysia has traditionally been perceived to be safe from the hazards of earthquakes and tsunamis. Local design practices tend to neglect tsunami waves and include no such provisions. In 2004, a 9.3Mw seaquake occurred off the northwest coast of Aceh, which generated tsunami waves that caused destruction in Malaysia totalling US 25 million and 68 deaths. This event prompted an awareness of the need to study the reliability of fixed offshore platforms scattered throughout Malaysian waters. In this paper, we present a review of research on the seismicity of the Manila Trench, which is perceived to be high risk for Southeast Asia. From the tsunami numerical model TUNA-M2, we extract computer-simulated tsunami waves at prescribed grid points in the vicinity of the platforms in the region. Using wave heights as input, we simulate the tsunami using SACS v5.3 structural analysis software of offshore platforms, which is widely accepted by the industry. We employ the nonlinear solitary wave theory in our tsunami loading calculations for the platforms, and formulate a platform-specific risk quantification system. We then perform an intensive structural sensitivity analysis and derive a corresponding platform-specific risk rating model. © 2016, Harbin Engineering University and Springer-Verlag Berlin Heidelberg. Harbin Engineering University 2016 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-84978069609&doi=10.1007%2fs11804-016-1367-5&partnerID=40&md5=d7e50331627f37b066d37f77b65bddf4 Lee, H.E. and Liew, M.S. and Mardi, N.H. and Na, K.L. and Toloue, I. and Wong, S.K. (2016) Development of jacket platform tsunami risk rating system in waters offshore North Borneo. Journal of Marine Science and Application, 15 (3). pp. 307-320. http://eprints.utp.edu.my/25667/ |
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This work details the simulation of tsunami waves generated by seaquakes in the Manila Trench and their effect on fixed oil and gas jacket platforms in waters offshore North Borneo. For this study, a four-leg living quarter jacket platform located in a water depth of 63m is modelled in SACS v5.3. Malaysia has traditionally been perceived to be safe from the hazards of earthquakes and tsunamis. Local design practices tend to neglect tsunami waves and include no such provisions. In 2004, a 9.3Mw seaquake occurred off the northwest coast of Aceh, which generated tsunami waves that caused destruction in Malaysia totalling US 25 million and 68 deaths. This event prompted an awareness of the need to study the reliability of fixed offshore platforms scattered throughout Malaysian waters. In this paper, we present a review of research on the seismicity of the Manila Trench, which is perceived to be high risk for Southeast Asia. From the tsunami numerical model TUNA-M2, we extract computer-simulated tsunami waves at prescribed grid points in the vicinity of the platforms in the region. Using wave heights as input, we simulate the tsunami using SACS v5.3 structural analysis software of offshore platforms, which is widely accepted by the industry. We employ the nonlinear solitary wave theory in our tsunami loading calculations for the platforms, and formulate a platform-specific risk quantification system. We then perform an intensive structural sensitivity analysis and derive a corresponding platform-specific risk rating model. © 2016, Harbin Engineering University and Springer-Verlag Berlin Heidelberg. |
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Article |
author |
Lee, H.E. Liew, M.S. Mardi, N.H. Na, K.L. Toloue, I. Wong, S.K. |
spellingShingle |
Lee, H.E. Liew, M.S. Mardi, N.H. Na, K.L. Toloue, I. Wong, S.K. Development of jacket platform tsunami risk rating system in waters offshore North Borneo |
author_facet |
Lee, H.E. Liew, M.S. Mardi, N.H. Na, K.L. Toloue, I. Wong, S.K. |
author_sort |
Lee, H.E. |
title |
Development of jacket platform tsunami risk rating system in waters offshore North Borneo |
title_short |
Development of jacket platform tsunami risk rating system in waters offshore North Borneo |
title_full |
Development of jacket platform tsunami risk rating system in waters offshore North Borneo |
title_fullStr |
Development of jacket platform tsunami risk rating system in waters offshore North Borneo |
title_full_unstemmed |
Development of jacket platform tsunami risk rating system in waters offshore North Borneo |
title_sort |
development of jacket platform tsunami risk rating system in waters offshore north borneo |
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Harbin Engineering University |
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2016 |
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https://www.scopus.com/inward/record.uri?eid=2-s2.0-84978069609&doi=10.1007%2fs11804-016-1367-5&partnerID=40&md5=d7e50331627f37b066d37f77b65bddf4 http://eprints.utp.edu.my/25667/ |
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