Many design codes for structures in tropical waters are still based on the code for the North Sea, even though both have different environmental conditions. This research was conducted to assess the influence parameters of the tropical water environments and to determine the empirical estimates of the parameters that have a major effect on the corrosion that occurs in tropical waters. The result of this study will produce a practical equation function to estimate the corrosion loss based on the parameters of temperature, current velocity, and dissolve Nitrogen (DIN) for two different levels, low concentration level DIN, and high concentration level DIN. The function can analyze the estimation of corrosion that occurs in two different locations in the chain, the splash zone area, and immersed area. The corrosion rate (mm / year) obtained from the empirical estimation is then validated with the actual measurement data from the field obtained from the available literature. The empirical estimation results show a good fit when compared with data from existing actual measurements. Furthermore, the validated estimation results and actual data are compared with the existing class/code rules wear allowance. The corrosion rate results in particular conditions that exceed the corrosion wear allowances in the rules for data on tropical waters.

E. Fontaine, J. Rosen, A. E. Potts, K. T. Ma, and R. E. Melchers, “SCORCH JIP – Feedback on MIC and Pitting Corrosion from Field Recovered Mooring Chain Links”. Presented at Proceedings of the Offshore Technology Conference, Houston, Texas, US, 5-8 May 2014, pp. 4-9.

R. D’Souza and S. Majhi, “Application of Lessons Learned from Field Experience to Design, Installation, and Maintenance of FPS Moorings”, presented at Offshore Technology Conference, Houston, Texas, US, 6-9 May 2014, pp. 2-7.

API (2011), “Specification for Wire Rope”. API Specification 9A, 26th Edition, May 2011.

R. E. Melchers, “Modelling of Marine Immersion Corrosion for Mild and Low-Alloy Steels Part1: Phenomenological Model”. Corrosion, 2003, 59:319–334.

R. E. Melchers, “The Effect of Corrosion on the Structural Reliability of Steel Offshore Structures”, Corrosion science 47, The University of Newcastle, Australia, 2005, pp.2397-2408.

R. E. Melchers, R. J. Jeffery. “Long-term Corrosion of steels and Steel Piling in Seawaters with Elevated Nutrient Concentration”, presented at The European Corrosion Congress, Pisa, Italy, 9 September 2014, pp. 1-7.

J. Rosen, K. Jayasinghe, A.E. Potts, R.E. Melchers, and C. R. Chaplin, “SCORCH JIP - Findings from Investigations into Mooring Chain and Wire Rope Corrosion in Warm Waters”, presented at Offshore Technology Conference, Houston, Texas, US, 4-7 May 2015, pp. 3-10.

J. Rosen, A. E. Potts, E. Fontaine, K. T. Ma, C. R. Chaplin, and W. Storesund, “SCORCH JIP – Feedback from Field Recovered Mooring Wire Ropes”, presented at Proceedings of the Offshore Technology Conference, Houston, Texas, US, 5-8 May 2014, pp. 16-27.

BV (2008), “Classification of Mooring Systems for Permanent Offshore Units”. Guidance Note NI 493 DTM RO1 E, July 2008.

DNV (2013), “Position Mooring”. Offshore Standard DNV-OS-E301, October 2013.