Review on Deep Water Flowlines of Gumusut-Kakap, Malaysia
Abstract
The Gumusut-Kakap field is located at offshore Sabah Blocks J and K at 1200 m of deep water. This paper discussed on production, gas injection and water injection flowlines of Gemusut-Kakap field development using Subsea Pro Simulation. The study was to determine wall thickness and stress and also to determine the deformation due to buckling of pipeline.
##Keywords:##
Gumusut-Kakap Malaysian Deep Water; Subsea Production Flowlines.
Published
Jul 30, 2016
How to Cite
KOTO, J..
Review on Deep Water Flowlines of Gumusut-Kakap, Malaysia.
Journal of Ocean, Mechanical and Aerospace -science and engineering-, [S.l.], v. 33, n. 1, p. 1 - 8, july 2016.
ISSN 2527-6085.
Available at: <https://isomase.org/Journals/index.php/jomase/article/view/406>. Date accessed: 30 apr. 2026.
doi: http://dx.doi.org/10.36842/jomase.v33i1.406.
References
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2. Abdul Khair Junaidi, Jaswar Koto, 2014, Parameters Study of Deep Water Subsea Pipeline Selection. UTM Press.
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4. Abdul Khair, J., Jaswar, Koto, Affis Effendi, AhmadFitriadhy, 2015, Buckling Criteria for Subsea Pipeline, Jurnal Teknologi, Vol 74, No 5, pp.69-72.
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7. Bank Pembangunan, Malaysia (BPM), Report on Malaysia Oil and Gas Exploration and Production, Annual Report 2011.
8. DNV RP E305, 1988, On-Bottom Stability Design of Submarine Pipelines.
9. DNV RP F103, 2010, Cathodic Protection of Submarine Pipelines by Galvanic Anodes.
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13. ISO 15589-2, 2007, Petroleum and Natural Gas Industries, Cathodic Protection of Pipeline Transportation Systems Part 2: Offshore Pipelines.
14. J.Koto, A.K. Junaidi, 2016, Subsea Pipeline Design & Analysis, Second Edition, Ocean & Aerospace Research Institute, Indonesia & Universiti Teknologi Malaysia.
15. Madon MBH (1999). Basin types, tectono-stratigraphic provinces and structural styles, in K.M. Leong (ed) The Petroleum Geology and Resource of Malaysia, Petronas, Kuala Lumpur, Malaysia, pp. 77-111.
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2. Abdul Khair Junaidi, Jaswar Koto, 2014, Parameters Study of Deep Water Subsea Pipeline Selection. UTM Press.
3. Abdul Khair Junaidi, Jaswar Koto, 2014, Parameters Study of Deep Water Subsea Pipeline Selection, Jurnal Teknologi, Vol 69, No 7, pp.115-119.
4. Abdul Khair, J., Jaswar, Koto, Affis Effendi, AhmadFitriadhy, 2015, Buckling Criteria for Subsea Pipeline, Jurnal Teknologi, Vol 74, No 5, pp.69-72.
5. Akhmal Sidek, Umar Hamzah, Radzuan Junin, 2015, Seismic Facies Analysis and Structural Interpretation of Deepwater NW Sabah, Jurnal Teknologi, Vol.75:1, pp.115-125.
6. ASME B16.5, 2013, Pipe Flanges and Flanged Fittings.
7. Bank Pembangunan, Malaysia (BPM), Report on Malaysia Oil and Gas Exploration and Production, Annual Report 2011.
8. DNV RP E305, 1988, On-Bottom Stability Design of Submarine Pipelines.
9. DNV RP F103, 2010, Cathodic Protection of Submarine Pipelines by Galvanic Anodes.
10. DNV, 1981, Rules for Submarine Pipeline Systems.
11. FMC, First Malaysian Subsea Project Engineered and Manufactured from FMC’s Malaysian facilities, Shell Gumusut, Sabah Blocks J & K.
12. Harun Al-Rashid Bin Azmi, 2013, Conceptual Design for Deep Water Pipeline, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia.
13. ISO 15589-2, 2007, Petroleum and Natural Gas Industries, Cathodic Protection of Pipeline Transportation Systems Part 2: Offshore Pipelines.
14. J.Koto, A.K. Junaidi, 2016, Subsea Pipeline Design & Analysis, Second Edition, Ocean & Aerospace Research Institute, Indonesia & Universiti Teknologi Malaysia.
15. Madon MBH (1999). Basin types, tectono-stratigraphic provinces and structural styles, in K.M. Leong (ed) The Petroleum Geology and Resource of Malaysia, Petronas, Kuala Lumpur, Malaysia, pp. 77-111.
16 .Offshore Energy Today.com, Early First Oil from Gumusut-Kakap Deepwater Field, Malaysia.
17. SapuraAcergy, Gumusut-Kakap Development Project.
18. Terry Freckelton, Overview of Shell Deep water Developments in Malaysia, Shell Malaysia Exploration & Production.
