Floating Storage and Offloading (FSO) demands good designs. One of the design is FSO’s mooring lines. The mooring lines of the FSO would face various environmental conditions, so that they are required to have good reliability. FSO Abherka, installed in the Madura stratit, has dimensions of LOA 242.90 m, LPP 232 m, Breadth 41.6 m, Height 19.7 m, Draft 12,894 m, and a deadweight of 85829 tons. The strait has a water depth of 100 m with contour variations of ± 2 m. Each four cluster of mooring lines of FSO Abherka has three mooring ropes. This study analyzed the strength of mooring lines in intact and damaged conditions using DNV software Genie and DNV HydroD. This study models a hydrodynamic FSO. This study also measured the reliability of the mooring lines from 2 cases: 1 intact and one damage from the most dangerous conditions. This study used the mean Value First Order Second Moment method to find the reliability of these mooring lines. Based on the reliability calculation set by DNV according to DNV-OS E301, the mooring lines design meet the established reliability criteria

Floating Storage Offloading; FSO Abherka; Mooring Lines; Offshore; Reliability

Lewis EV. Principles of Naval Architecture Second Revision, vol. 2 of Resistance, Propulsion and Vibration. Jersey City NJ: The Society of Naval Architects & Marine Engineers; 2001.

Murdjito. Handout Perancangan Konstruksi Bangunan Laut 2. 1. ed. Surabaya: ITS Press; 2005.

Indiyono P. Hidrodinamika Bangunan Lepas Pantai. 1. ed. Surabaya: SIC; 2004.

Sabana NM, Djatmiko EB, Prastianto RW. Fatigue Life of Mooring Lines on External Turret Floating LNG for Different Pretension and Water Depth; 2019, (in press).

Djatmiko EB. Perilaku Bangunan Apung di atas Gelombang. 1. ed. Surabaya: ITS Press; 2003.

Montes-Iturrizaga R, Heredia-Zavoni E, Silva-González F, Straub D. Nested reliability analysis of mooring lines for floating systems. Applied Ocean Research 2012;34:107–115. https://www.sciencedirect.com/science/article/pii/S0141118711000812.

Hou HM, Xu TJ, Dong GH, Zhao YP, Bi CW. Time-dependent reliability analysis of mooring lines for fish cage under corrosion effect. Aquacultural Engineering 2017;77:42–52. https://www.sciencedirect.com/science/article/pii/S0144860916301108.

Hou HM, Dong GH, Xu TJ, Zhao YP. System reliability evaluation of mooring system for fish cage under ultimate limit state. Ocean Engineering 2019;172:422–433. https://www.sciencedirect.com/science/article/pii/S0029801818313970.

Hou HM, Dong GH, Xu TJ, Zhao YP, Bi CW, Gui FK. Fatigue reliability analysis of mooring system for fish cage. Applied Ocean Research 2018;71:77–89. https://www.sciencedirect.com/science/article/pii/S0141118717303310.

Stanisic D, Efthymiou M, Kimiaei M, Zhao W. Design loads and long term distribution of mooring line response of a large weathervaning vessel in a tropical cyclone environment. Marine Structures 2018;61:361–380. https://www.sciencedirect.com/science/article/pii/S0951833917301454.

Stanisic D, Efthymiou M, White DJ, Kimiaei M. Mooring system reliability in tropical cyclone and North Sea winter storm environments. Applied Ocean Research 2019;88:306–316. https://www.sciencedirect.com/science/article/pii/S0141118718307302.

Du J, Chang A, Wang S, Sun M, Wang J, Li H. Multi-mode reliability analysis of mooring system of deep-water floating structures. Ocean Engineering 2019;192:106517. https://www.sciencedirect.com/science/article/pii/S0029801819306560.

Li H, Guedes Soares C, Huang HZ. Reliability analysis of a floating offshore wind turbine using Bayesian Networks. Ocean Engineering 2020;217:107827. https://www.sciencedirect.com/science/article/pii/S0029801820308003.

Xu S, Teixeira AP, Guedes Soares C. Conditional Reliability Analysis of a Semi-Submersible Mooring Line With Random Hydrodynamic Coefficients. Journal of Offshore Mechanics and Arctic Engineering 2019 09;142(1). https://doi.org/10.1115/1.4044653, 011606.

Hou HM, Dong GH, Xu TJ. Fatigue damage distribution and reliability assessment of grid mooring system for fish cage. Marine Structures 2019;67:102640. https://www.sciencedirect.com/science/article/pii/S0951833918304386.

Thies PR, Johanning L, Harnois V, Smith HCM, Parish DN. Mooring line fatigue damage evaluation for floating marine energy converters: Field measurements and prediction. Renewable Energy 2014;63:133–144. https://www.sciencedirect.com/science/article/pii/S0960148113004667.

Shipping P. General Arrangements of FSO Abherka. Jakarta; 2011.

API. Design and Analysis of Stationkeeping Systems for Floating Structures. 1. ed. Washington: American Petrolium Institute; 2015.

Rosyid DM. Pengantar Rekayasa Keandalan. 1. ed. Surabaya: Airlangga University; 2007.

DNV. Position Mooring. 3. ed. Norway: Det Norske Veritas; 2018.