The oil and gas industry is pushing toward new unexplored remote areas, potentially rich in resources but with limited industry presence, infrastructure, and emergency preparedness. Maintenance support is very important and challenging in such remote areas. A platform supply vessel (PSV) is an essential part of maintenance support. Hence, the acceptable level of its availability performance is high. Identification of critical components of the PSV provides essential information for optimizing maintenance management, defining a spare parts strategy, estimating competence needs for PSV operation, and achieving the acceptable level of availability performance. Currently, there are no standards or guidelines for the criticality analysis of PSVs for maintenance purposes. In this paper, a methodology for the identification of the critical components of PSVs has been developed, based on the available standard. It is a systematic screening process. The method considers functional redundancy and the consequences of loss of function as criticality criteria at the main and subfunction levels. Furthermore, at the component level, risk tools such as failure modes, effects and criticality analysis (FMECA), and fault tree analysis (FTA) will be applied in order to identify the most critical components. Moreover, the application of the proposed approach will be illustrated by a real case study.
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June 2017
Research-Article
Criticality Analysis for Maintenance Purposes of Platform Supply Vessels in Remote Areas
A. Marhaug,
A. Marhaug
Department of Engineering and Safety,
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: andreasmarhaug@gmail.com
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: andreasmarhaug@gmail.com
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A. Barabadi,
A. Barabadi
Department of Engineering and Safety,
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: abbas.b.abadi@uit.no
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: abbas.b.abadi@uit.no
Search for other works by this author on:
Y. Z. Ayele
Y. Z. Ayele
Department of Engineering and Safety,
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: yonas.z.ayele@uit.no
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: yonas.z.ayele@uit.no
Search for other works by this author on:
A. Marhaug
Department of Engineering and Safety,
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: andreasmarhaug@gmail.com
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: andreasmarhaug@gmail.com
A. Barabadi
Department of Engineering and Safety,
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: abbas.b.abadi@uit.no
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: abbas.b.abadi@uit.no
E. Stagrum
K. Karlsen
A. Olsen
Y. Z. Ayele
Department of Engineering and Safety,
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: yonas.z.ayele@uit.no
UiT The Arctic University of Norway,
Tromsø 9037, Norway
e-mail: yonas.z.ayele@uit.no
1Corresponding author.
Contributed by the Ocean, Offshore, and Arctic Engineering Division of ASME for publication in the JOURNAL OF OFFSHORE MECHANICS AND ARCTIC ENGINEERING. Manuscript received September 18, 2016; final manuscript received November 15, 2016; published online March 27, 2017. Assoc. Editor: Jonas W. Ringsberg.
J. Offshore Mech. Arct. Eng. Jun 2017, 139(3): 031601 (11 pages)
Published Online: March 27, 2017
Article history
Received:
September 18, 2016
Revised:
November 15, 2016
Citation
Marhaug, A., Barabadi, A., Stagrum, E., Karlsen, K., Olsen, A., and Ayele, Y. Z. (March 27, 2017). "Criticality Analysis for Maintenance Purposes of Platform Supply Vessels in Remote Areas." ASME. J. Offshore Mech. Arct. Eng. June 2017; 139(3): 031601. https://doi.org/10.1115/1.4035304
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