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A review of human error in marine engine maintenance

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Języki publikacji
EN
Abstrakty
EN
Maritime safety involves minimizing error in all aspects of the marine system. Human error has received much importance, being responsible for about 80% of the maritime accident worldwide. Currently, more attention has been focused to reduce human error in marine engine maintenance. On-board marine engine maintenance activities are often complex, where seafarers conduct maintenance activities in various marine environmental (i.e. extreme weather, ship motions, noise, and vibration) and operational (i.e. work overload and stress) conditions. These environmental and operational conditions, in combination with generic human error tendencies, results in innumerable forms of error. There are numerous accidents that happened due to the human error during the maintenance activities of a marine engine. The most severe human error results in accidents due to is a loss of life. Moreover, there are other consequences too such as delaying the productivity of marine operations which results in the financial loss. This study reviews methods that are currently available for identifying, reporting and managing human error in marine engine maintenance. As a basis for this discussion, authors provide an overview of approaches for investigating human error, and a description of marine engine maintenance activities and environmental and operational characteristics.
Twórcy
autor
  • University of Tasmania, Australian Maritime College, Launceston, Australia
  • University of Tasmania, Australian Maritime College, Launceston, Australia
autor
  • Memorial University of Newfoundland, NL, St. John’s, Canada
autor
  • University of Tasmania, Australian Maritime College, Launceston, Australia
Bibliografia
  • 1. ARMSTRONG, J. S. 2001. Principles of forecasting: a handbook for researchers and practitioners, Springer Science & Business Media.
  • 2. BASRA, G. & KIRWAN, B. 1998. Collection of offshore human error probability data. Reliability Engineering & System Safety, 61, 77-93.
  • 3. BEA, R. G. 1998. Human and organization factors: engineering operating safety into offshore structures. Reliability Engineering & System Safety, 61, 109-126.
  • 4. EL-LADAN, S. & TURAN, O. 2012. Human reliability analysis—Taxonomy and praxes of human entropy boundary conditions for marine and offshore applications. Reliability Engineering & System Safety, 98, 43-54.
  • 5. GATFIELD, D. & IENG, A. 2006. Using simulation to determine a framework for the objective assessment of competence in maritime crisis management. INTERNATIONAL SIMULATION AND GAMING YEARBOOK-NEW SERIES-, 14, 44
  • 6. ISLAM, R., ABBASSI, R., GARANIYA, V. & KHAN, F. 2017a. Development of a human reliability assessment technique for the maintenance procedures of marine and offshore operations. Journal of Loss Prevention in the Process Industries, 50, 416-428.
  • 7. ISLAM, R., ABBASSI, R., GARANIYA, V. & KHAN, F. I. 2016. Determination of human error probabilities for the maintenance operations of marine engines. Journal of Ship Production and Design, 32, 226-234
  • 8. ISLAM, R., KHAN, F., ABBASSI, R. & GARANIYA, V. 2018. Human error probability assessment during maintenance activities of marine systems. Safety and health at work, 9, 42-52.
  • 9. ISLAM, R., KHAN, F., ABBASSI, R. & GARANIYA, V. 2018a. Human error assessment during maintenance operations of marine systems–What are the effective environmental factors? Safety science, 107, 85-98
  • 10. ISLAM, R., KHAN, F., ABBASSI, R. & GARANIYA, V. 2018b. Human error probability assessment during maintenance activities of marine systems. Safety and health at work, 9, 42-52.
  • 11. ISLAM, R. & YU, H. 2018. Human Factors in Marine and Offshore Systems. In: FAISAL KHAN, R. A. (ed.) Methods in Chemical Process Safety. Elsevier.
  • 12. ISLAM, R., YU, H., ABBASSI, R., GARANIYA, V. & KHAN, F. 2017b. Development of a monograph for human error likelihood assessment in marine operations. Safety science, 91, 33-39.
  • 13. MOORE, W. & BEA, R. Management of Human and Organizational Error Throughout a Ship‟ s Life Cycle. Proceedings of the International Conference on Engineered Engineering Systems-Management and Operation of Ships: Practical Techniques for Today and Tomorrow, 1995. 172-180.
  • 14. UNG, S., WILLIAMS, V., CHEN, H., BONSALL, S. & WANG, J. 2006. Human error assessment and management in port operations using fuzzy AHP. Marine Technology Society Journal, 40, 73-86.
  • 15. WANG, J. 2003. Technology and safety of marine systems, Elsevier.
  • 16. WANG, J. & TRBOJEVIC, V. 2007. Design for safety of marine and offshore systems, IMarEST.
  • 17. WILLIAMS, J. 1996. Assessing the Likelihood of Violation Behaviour. University of Manchester, Manchester.
  • 18. YOUNGBERG, B. J. & HATLIE, M. J. 2004. The patient safety handbook, Jones & Bartlett Learning.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4a5318c0-f0d7-4ad3-a9b4-b88aadffe05f
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