Every ship project would not be apart from risk and uncertainty issues. The inappropriate risk assessment process would have long-term impact, such as financial loss. Thus, risk and uncertainties analysis would be a very important process in financial feasibility determination of the project. This study analyzes the financial feasibility of 17,500 LTDW tanker project. Risk and uncertainty are two differentiated terminologies in this study, where risk focuses on operational risk due to shipbuilding process nonconformity to shipowner finance, while uncertainty focuses on variable costs that affect project cash flows. There are three funding scenarios in this study, where the percentage of funding with own capital and bank loan in scenario 1 is 100% : 0%, scenario 2 is 75% : 25%, and scenario 3 is 50% : 50%. Monte Carlo simulation method was applied to simulate the acceptance criteria, such as net present value (NPV), internal rate of return (IRR), payback period (PP), and profitability index (PI). The results of simulation show that 17,500 LTDW tanker project funding by scenario 1, 2 and 3 are feasible to run, where probability of each acceptance criteria was greater than 50%. Charter rate being the most sensitive uncertainty over project's financial feasibility parameters.

Risk event; uncertainty; financial feasibility; tanker; Monte Carlo simulation

A. Metelitsa and M. Mercer, "World Oil Transit Chokepoints Critical to Global Energy Security," 1 December 2014. [Online]. Available: http://www.eia.gov. [Accessed 26 March 2017].

M. B. Zaman, E. Kobayashi, N. Wakabayashi and A. Maimun, "Risk of Navigation for Marine Traffic in the Malacca Strait using AIS," Procedia Earth and Planetary Science 14, p. 33 – 40, 2015.

P. Sand, "Fleet Growth Squeezes Crude Oil Tanker Market," 22 December 2016. [Online]. Available: http://www.bimco.org. [Accessed 25 March 2017].

H. Thanopoulau and S. P. Strandenes, "A Theoretical Framework for Analysing Long-term Uncertainty In Shipping," Case Studies on Transport Policy, 2017.

P. Setyohadi, Model Manajemen Risiko Berbasis Respon Dinamis untuk Memitigasi Dampak Perubahan Regulasi Maritim: Perspektif Pemilik Kapal Tanker, Surabaya: Institut Teknologi Sepuluh Nopember, 2017.

F. Celik, I. Erturk and E. Turan, "Investigation of Main Particulars Subject to Minimum Building Cost for Chemical Tankers," Ocean Engineering, p. 32– 37, 2013.

M. Stopford, Maritime Economics 3rd Edition, London and New York: Routledge Taylor and Francis Group, 2009.

T. E. Notteboom and B. Vernimmen, "The Effect of High Fuel Costs on Liner Service Configuration in Container Shipping," Journal of Transport Geography 17, p. 325–337, 2009.

M. Basuki, D. Manfaat, S. Nugroho and A. Dinariyana, "Probabilistic Risk Assessment of The Shipyard Industry Using The Bayesian Method," International Journal of Technology, pp. 88-97, 2014.

R. Flage, P. Baraldi, Z. Enrico and T. Aven, "Probability and Possibility Based Representations of Uncertainty in Fault Tree Analysis," Risk Analysis 33 (1), pp. 121-133, 2013.

J. Liu, F. Jin, Q. Xie and M. Skitmore, "Improving Risk Assessment in Financial Feasibility of International Engineering Pojects: A Risk Driver Perspective," International Journal of Project Management 35, pp. 204-211, 2017.

S. Grey, Practical Risk Assessment for Project Management, England: John Wiley & Sons Ltd, 1995.

M. Marseguerra and E. Zio, "Monte Carlo Simulation for Model-Based Fault Diagnosis in Dynamic System," Reliab. Eng. Syst. Saf. 94 (2), pp. 180-186 , 2009.

R. Obermaier, "Risk Analysis in Investment Appraisal based on the Monte Carlo Simulation Technique," European Physical Journal B 30, p. 407–409, 2002.

D. Priyanta, "The Development of Equipment Criticality Analysis (ECA) Protocols of Offshore Carbon Steel Static Mechanical Equipment," Asian Journal of Applied Sciences, p. 1258 – 1266, 2016.

D. Priyanta, Keandalan dan Perawatan, Surabaya: ITS, 2000.

J. Mun, Modeling Risk: Applying Monte Carlo Simulation, Real Options Analysis, Forecasting, and Optimization Techniques, Canada: John Wiley & Sons, Inc., Hoboken, New Jersey, 2006.

C. Maio, C. Schexnayder, K. Knutson and S. Weber, "Probability Distribution Functions for Construction Simulation," Journal of Construction Engineering and Management 126(4), pp. 285-292, 2000.

I. Soeharto, Manajemen Proyek (dari konseptual sampai operasional) Jilid 2, Jakarta: Erlangga, 2001.

D. Vose, Quantitative Risk Analysis: A Guide to Monte Carlo Simulation Modelling, Chichester: Wiley, 2000.

T. S. C. F. R. M. Saltelli A, Sensitivity Analysis in Practice: A Guide to Assessing Scientific Models, New York: Wiley, 2004.

K. B. Odland, Risk Management in Shipbuilding Projects Using Monte Carlo Simulation for Scheduling, Norwegia: Norwegian University of Science and Technology, 2014.

PT. Pertamina (PERSERO) Shipping, "Document," PT. Pertamina (PERSERO) Shipping, Jakarta, 2013.

Ship & Bunker, "News and intelligence for the marine fuels industri," 21 April 2017. [Online]. Available: http://shipandbunker. [Accessed 24 April 2017].

P. Sand, "Tanker Shipping: a Strong Season Lifts Crude Oil Tanker Before It is Expected to Hit the Fan in 2017," 30 Januari 2017. [Online]. Available: http://www.bimco.org.

J. Taborda, "Indonesia Interest Rate ," 15 Juni 2017. [Online]. Available: https://tradingeconomics.com/indonesia/interest-rate. [Accessed 16 Mei 2017].

P. L. Chu, C. Vanderghem, H. L. MacLean and B. A. Saville, "Financial Analysis and Risk Assessment of Hydroprocessed Renewable Jet Fuel Production from Camelina, Carinata and Used Cooking Oil," Applied Energy xxx, p. xxx–xxx, 2016.

S. S. Saffie and S. H. Jaaman, "Monte Carlo on Net Present Value for Capital Investment in Malaysia," Procedia - Social and Behavioral Sciences 219, p. 688 – 693, 2016.

B. Amigun, D. Petrie and J. Görgens, "Economic Risk Assessment of Advanced Process Technologies for Bioethanol Production in South Africa: Monte Carlo Analysis," Renewable Energy 36, pp. 3178-318 6, 2011.

Pitana T, Gurning Saut, Fikri F. “Modelling of LPG Ship Distribution in Western of Indonesia using Discrete Simulation Method ". International Journal of Marine Engineering Innovation and Research., vol. 1, no. 3, Jun. 2017

Santoso A, Zaman B Z, Prawira A Y Techno -economic Analysis of Rotor Flettner in Container Ship 4000DWT ". International Journal of Marine Engineering Innovation and Research., vol. 1, no. 3, Jun. 2017