Economic aspects of component importance analysis for complex marine systems

Chybowski, L.; Gawdzińska, K.

doi:10.17402/231

Artykuł - szczegóły

Tytuł artykułu

Economic aspects of component importance analysis for complex marine systems

Autorzy

Chybowski L. , Gawdzińska K.

Treść / Zawartość

Pełne teksty:

Chybowski-Gawdzinska_Economic_51-2017.pdf

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Identyfikatory

DOI

10.17402/231

Warianty tytułu

Języki publikacji

Abstrakty

The paper presents the application of cost-based, component-importance measures for complex technical systems. A stern tube sealing system installed on a sea vessel was used as an example of a complex technical system. Selected statistics of a ship’s operation losses were calculated. Selected, known-importance measures were presented and the authors’ own approach to cost-based, component-importance analysis was shown. The following measures were discussed: the operation-interruption cost index, the maintenance potential, the simulation-based maintenance index, and maintenance and operational costs. A description of factors influencing the importance of the technical system components was provided.

Słowa kluczowe

importance analysis complex system sensitivity analysis marine system economic aspects computer simulation

Wydawca

Wydawnictwo Naukowe Akademii Morskiej w Szczecinie

Czasopismo

Zeszyty Naukowe Akademii Morskiej w Szczecinie

Rocznik

2017

Tom

nr 51 (123)

Strony

59--65

Opis fizyczny

Bibliogr. 17 poz., rys., tab.

Twórcy

autor

Chybowski L.

l.chybowski@am.szczecin.pl

Maritime University of Szczecin, Faculty of Marine Engineering 1-2 Wały Chrobrego St., 70-500 Szczecin, Poland

autor

Gawdzińska K.

k.gawdzinska@am.szczecin.pl

Maritime University of Szczecin, Faculty of Marine Engineering 1-2 Wały Chrobrego St., 70-500 Szczecin, Poland

Bibliografia

1. Bajkowski, J.M. & Zalewski, R. (2014) Transient response analysis of a steel beam with vacuum packed particles. Mechanics Research Communications 60, pp. 1–6.
2. Chybowski, L. (2014) Ważność komponentów w strukturze złożonych systemów technicznych. Szczecin, Radom: ITE.
3. Chybowski, L. & Gawdzińska, K. (2016) On the Present State-of-the-Art of a Component Importance Analysis for Complex Technical Systems. In: A. Rocha et al. (eds.) New Advances in Information Systems and Technologies. Advances in Intelligent Systems and Computing 445, pp. 691–700, Springer, Cham.
4. Chybowski, L., Laskowski, R. & Gawdzińska, K. (2015) An overview of systems supplying water into the combustion chamber of diesel engines to decrease the amount of nitrogen oxides in exhaust gas. Journal of Marine Science and Technology 20, 3, pp. 393–405.
5. Chybowski, L. & Żółkiewski, S. (2016) Basic reliability structures of complex technical systems. In: A. Rocha et al. (eds.) New Contributions in Information Systems and Technologies. Advances in Intelligent Systems and Computing 354, pp. 333–342, Springer, Cham.
6. Derlukiewicz, D., Ptak, M. & Koziołek, S. (2016) Proactive failure prevention by human-machine interface in remote-controlled demolition robots. In: A. Rocha et al. (eds.) New Advances in Information Systems and Technologies. Advances in Intelligent Systems and Computing 445, pp. 711–720, Springer, Cham.
7. Duda-Gwiazda, J. (1995) Niezawodność okrętowych siłowni spalinowych. Raport techniczny Nr RT-95/T-01. Gdańsk: Centrum Techniki Okrętowej.
8. Hilber, P. (2005) Component reliability importance indices for maintenance optimization of electrical networks. Licentiate thesis. Stockholm: Royal Institute of Technology.
9. Hilber, P. & Bertling, L. (2004) Monetary Importance of Component Reliability in Electrical Networks for Maintenance Optimization. Proceedings of Probability Methods Applied to Power Systems, Ames, Iowa, September 2004.
10. Hyundai Heavy Industries (2003) Specifications for 6,500 TEU class container carrier. Ulsan: Hyundai Heavy Industries.
11. Karanta, I. (2011) Importance measures for the dynamic flow graph methodology. CHARISMA Project. Research report VTT-R-00525-11. VTT, Helsinki.
12. Kuo, W. & Zhu, X. (2012) Importance measures in reliability, risk, and optimization. Princples and application. John Wiley & Sons, Ltd.
13. Paska, J. (2013) Wybrane aspekty optymalizacji niezawodności systemu elektroenergetycznego. Eksploatacja i Niezawodność 12, 2, pp. 202–208. 14. Ptak, M. & Konarzewski, K. (2015) Numerical Technologies for Vulnerable Road User Safety Enhancement. In: A. Rocha et al. (eds.) New Contributions in Information Systems and Technologies. Advances in Intelligent Systems and Computing 354, pp. 355–364.
15. ReliaSoft (2007) System Analysis Reference. Reliability, Availability & Optimization. Tuscon, Arizona, USA: Reliasoft Publishing. [Online] 2012, Available from: http:// reliawiki.com/index.php/System_Analysis_Reference [Accessed: July 18, 2017]
16. Woropay, M. (1983) Metoda budowy wielopoziomowych systemów do badania niezawodności z komponentów o wyznaczonej a piori istotności. Rozprawy nr 18. Bydgoszcz: ATR.
17. Zalewski, R. & Szmidt, T. (2014) Application of Special Granular Structures for semi-active damping of lateral beam vibrations. Engineering Structures 65, pp. 13–20.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-9471f024-3147-4d45-aedb-801792eb6cb3