Page 64 - Pipelines and Risers
P. 64
Wall-thickness and Material Grade Selection 37
4. ASME 31.4, (1992) “Code for liquid transportation systems for hydrocarbons, liquid
petroleum gas, anhydrous ammonia, and alcohol’s’’, American Society of Mechanical
Engineers.
5. ASME B31.8, (1992) “Code for Gas Transmission and Distribution Piping Systems”,
American Society of Mechanical Engineers (1994 Addendum).
6. API RPI 11 1, (1998) “Design, Construction, Operation, and Maintenance of Offshore
Hydrocarbon Pipelines”.
7. BSI: BS 8010 (1993) “Code of Practice for Pipeline - Part 3. Pipeline Subsea: Design,
Construction and Installation”, British Standards Institute.
8. CEN 234WG3-103, (1993), “Pipelines for Gas Transmission”, European Committee for
Standardization, 1993.
9. CSA-Z184-M86, (1986), “Gas Pipeline Systems”, Canadian Standard Association.
10. DNV (2000), Offshore Standard OS-F101 Submarine Pipeline Systems.
11. Jiao, G. et al. (1996), ‘The SUPERB Project: Wall-thickness Design Guideline for
Pressure Containment of Offshore Pipelines”, Proc.of OMAE96.
12. J P Kenny NS (1997), “Buckling Arrestor Design”, Report No. DSOI-PK-P121-F-CE-
003.
13. NEN (1992), NEN 3650, “Requirements for Steel Pipeline Transportation System”,
1992.
14. NPD(1990) “Guidelines to Regulations Relating to Pipeline Systems in the Petroleum
activities”, 30 April 1990.
15. Sotberg, T. and Bruschi R., (1992) “Future Pipeline Design Philosophy - Framework”,
Int. Conf. on Offshore Mechanics and Arctic Engineering.
16. Sriskandarajah, T. and Mahendran, I. K. (1987) “Parametric Consideration of Design and
Installation of Deepwater Pipelines”, Brown and Root U.K. Ltd. Presented at 1987
European Seminar Offshore Oil and Gas Pipeline Technology.
17. Verley, R. et al., (1994) “Wall thickness design for high pressure offshore gas pipelines”,
Int. Conf. on Offshore Mechanics and Arctic Engineering.
