Reliability Analysis on the Effect of Subsea Buoy to the Tension of Spread Mooring System

Madea Eka Silfiani, Rudi W. Prastianto, Murdjito Murdjito, Daniel M. Rosyid, Eko B. Dtjamiko

Abstract


A lot of research has been carried out regarding variations in mooring systems, one of which is the addition of buoys to the mooring system. In analyzing variations in mooring system designs, what needs to be considered is the reliability of the mooring lines. Therefore, in this research will analyze reliability on the effect of subsea buoy to the tension of mooring line with a variation position of subsea buoy. The variations on the position of one subsea buoy is arranged at the distance of the anchor 605 m, 577.5 m, 550 m, 522.5 and two subsea buoys at the distance from the anchor 605 m and 467.5 m. The analysis was performed for stand alone and offloading conditions with wave directions of 0 °, 45 °, 90 °, 135 °, 180 °. In this study to find the reliability of mooring lines, the author uses the Mean Value First Order Second Moment (MVFOSM) method. The results from this study, the probability of failure in the offloading condition without subsea buoy is 4.897E-17 and with subsea buoy (522.5 m) is 4.018E-17. Probability of failure in the stand alone condition without subsea buoy is 2.763E-16 and with subsea buoy (522.5 m) is 1.881E-16. From the probability of failure, the reliability of mooring lines in the offloading condition and stand alone condition without subsea buoy and with subsea buoy (522.5 m) is 1.00. The reliability calculation determined by DNV-OS E301, the results obtained meet the specified reliability criteria.


Keywords


Reliability, MVFOSM; FSO; spread mooring; subsea buoy; tension

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References


ABS. 2018. “Rules for Building and Classing Mobile Offshore Drilling Units”. USA. American Bureau of Shipping.

API RP 2SK 3th edition. 2005. “Recommended Practice for Design and Analysis of Station keeping Systems for Floating Structures”. Washington DC.

Bhattacharyya. R., 1978. “Dynamics of Marine Vehicle”s. New York: John Wiley & Sons Inc.

Chakrabarti, S. K., 1987. “Hydrodinamics of Offshore Structur”e. Boston, USA: Computational Mechanics Publication Southampton.

Djatmiko, E.B., 2012. “Perilaku dan Operabilitas Bangunan Laut Di Atas Gelombang Acak”. Surabaya: ITS Press.

DNV OS E301. 2004. “Position Mooring”. Det Norske Veritas. Norway.

Eghbali B., Daghigh M., Daghigh Y., & Azarsina F., 2018. “Mooring Line Reliability Analysis of Single Point Mooring (SPM) System under Extreme Wave and Current Conditions”. IJMT Vol. 9/Winter 2018 (41-49).

Faltinsen, O.M., 1990. “Sea Loads on Ships and Offshore Structures”. Cambridge, UK: Cambridge University Press.

Heraspatty, Agripina, 2016. “Analisa Operabilitas Dan Keandalan SPM 1134 CNOOC SES LTD. Terhadap Variasi Gelombang Seratus Tahun”. Jurusan Teknik Kelautan, Institut Teknologi Sepuluh Nopember.

Hou, H. M., Liu, Y., Dong, G. H., & Xu, T. J. (2022). “Reliability assessment of mooring system for fish cage considering one damaged mooring line”. Ocean Engineering, 257(May), 111626.

Ji, C.Y., Yuan, Z.M., Chen, M.L., 2011. “Study on a new mooring system integrating catenary with taut mooring”. China Ocean Eng. 25 (3), 427–440.

Li, X.Y., Guo, H.Y., Zhu, Y.Y., et al., 2018. “Considering the finite element analysis of the tensile behavior of filled steel cord umbilical cable”. J. Ocean Univ. China 48 (S1), 179–184.

Putra, G. R., Rosyid, D. M., & Prastianto, R. W. (2021). “Mooring Lines Reliability Analysis Case Study: Fso Abherka. IPTEK The Journal for Technology and Science”. 32(1), 41.

Rosyid, D. M., 2007. “Pengantar Rekayasa Keandalan”. Airlangga University Press.

Silfiani, Eka Madea, 2019. “Analisis Pengaruh Subsea Buoy Terhadap Tegangan Tali Tambat Pada Sistem Tambat Spread Mooring”. Jurusan Teknik Kelautan, Institut Teknologi Sepuluh Nopember.

Vaz, M.A., Patel, M.H., 2000. Three-dimensional behavior of elastic marine cables in sheared currents, Applied Ocean Research 22, 45-33.

Yuan, Z.M, Incecik A., Ji, C.Y., 2014. “Numerical Study on a Hybrid Mooring System with Clump Weights and Buoys”.




DOI: http://dx.doi.org/10.12962/j25481479.v8i4.19588

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E-ISSN: 2548-1479

 

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