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This study proposes a new methodology for the accurate risk assessment of railway freight wagons that has real-world applications in the operation and maintenance of freight vehicles. The paper specifically focuses on the analysis of posterior reliability calculation methods using Weibull’s reliability model to calculate reliability indicators by which the probability of occurrence of individual failures can be estimated. The consequences of failure are calculated through an existing system from the General contract used for freight wagons (AVV). The formula for calculating the risk value is based on a classical risk theory, where the risk is defined as a combination of the occurrence of a negative phenomenon and the severity of its consequence. The reasoning for this approach was in an effort to maintain simplicity and clarity for potential users in practice. This is based on the information gathered in examining the current state of risk management in the sector of railway vehicles in Slovakia. The data used for risk calculations were taken from a maintenance workshop in Slovakia to provide a realistic picture of the failure rates of freight wagons. The proposed methodology uses historical data for prediction of reliability for the next years. Based on the reliability being a function of time, the risk associated with it is variable, increasing with time. These findings have broader implications for the maintenance systems taken appropriate maintenance actions necessary with respect to increased risk.
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Tom
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17--22
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
- Faculty of Mechanical Engineering, University of Žilina, Slovak Republic
autor
- Faculty of Mechanical Engineering, University of Žilina, Slovak Republic
autor
- sféra, a.s. Bratislava, Slovak Republic
Bibliografia
- 1. AVV (2014) General Agreement for the Use of Freight Cars. Brussels, 2014.
- 2. Commission Implementing Regulation (EU) 2019/779 of 16 May 2019 laying down detailed provisions on a system of certification of entities in charge of maintenance of vehicles pursuant to Directive (EU) 2016/798 of the European Parliament and of the Council and repealing Commission Regulation (EU) No. 445/2011.
- 3. Commission Regulation (EU) No. 445/2011 of 10 May 2011 on a system of certification of entities in charge of maintenance for freight wagons and amending Regulation (EC) No. 653/2077.
- 4. Consilvio, A., Di Febbraro, A., Meo, R. & Sacco, N. (2019) Risk-based optimal scheduling of maintenance activities in a railway network. EURO Journal on Transportation and Logistics 8, 5, pp. 435–465.
- 5. Dhillon, B.S. (2011) Transportation Systems Reliability and Safety. Boca Raton: CRC Press.
- 6. ISO 31000:2009. Risk management – Principles and guidelines.
- 7. ISO 9001: 2015. Quality management systems – Requirements.
- 8. Legát, V., Pošta, J., Jurča, V., Flegl, R. & Hrnčíř, P. (2007) Systémy Managementu jakosti a spolehlivosti v údržbě. Praha: Česká společnost pro jakosti.
- 9. Nagyova, A., Balazikova, M., Markuliak, S., Sinay, J. & Pacaiova, H. (2018) Implementation Proposal of OH&S Management System According to the Standard ISO/DIS 45001. In: Arezes P. (ed.) Advances in Safety Management and Human Factors, AHFE 2017. Advances in Intelligent Systems and Computing 604, Springer, Cham, pp. 472– 485.
- 10. Pačaiová, H., Markuliak, Š. & Nagyová, A. (2016) The importance of risk in management systems. Košice: BEKI Design, s.r.o.
- 11. Pačaiova, H. & Nagyova, A. (2015) Risk assessment methodology in SMES. 15th International Multidisciplinary Scientific Geoconference (SGEM), Albena, Bulgaria, 2015, pp. 769–782.
- 12. Pačaiová, H., Sinay, J. & Glatz, J. (2009) Safety and risks of technical systems. Košice: Vienala Košice.
- 13. Pačaiova, H., Sinay, J. & Nagyova, A. (2017) Development of GRAM – A risk measurement tool using risk based thinking principles. Measurement 100, pp. 288–296.
- 14. Sitarz, M. & Chruzik, K. (2019) An approach to the legal requirements regarding railway transport safety monitoring in the European Union. Transport Open Access 34, 2, pp. 163–174.
- 15. Stuchlý, V., Poprocký, R., Rakyta, M. & Grenčík, J. (2017) Design of maintenance processes. Žilina: Žilinská Univerzita v Žiline 542.
- 16. Wawak, S., Arovski, S., Lazic, M. & Stefanovic, M. (2015) Preventive actions vs. risk management in ISO 9001:2015. In: 9th International Quality Conference. Kragujevac: Faculty of Engineering, pp. 3–9.
- 17. Zvolenský, P., Stuchlý, V., Grenčík, J. & Poprocký, R. (2014) Evolution of maintenance systems of passenger and freight wagons from the ECM certification point of view. Communications: scientific letters of the University of Žilina 16, 3A, pp. 40–47.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
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Bibliografia
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