Air Starting System Reliability Uses Reliability Requirement Setting (RRS) Model and Management Action Selection (MAS) Method
Keywords:
Air Starting, Management Action, , Three Reliability Scope, MAS MethodAbstract
Interpretation of the reliability can be used as a quality measurement of operational system of safety. We propose maintenance methodology based on reliability as a solution for predicting reliability system. To make a convenience system appropriate with regulation, we begin to define the three reliability scopes, they are: interval reliability, component reliability, and system reliability. Proposal of Engineering Calculation is the RRS Model for predicting design of component reliability and MAS Method to correct reliability caused by real operation. MAS method consists of harmonization of maintenance schedule, resetting or hazard or overhaul, revitalization (component reliability improvement), and innovation (component replacement with actual part). Case study to implement these model and method based on Air Starting System of Tanker. Predict of system reliability design is 0.438044295. To obtain reliability based on regulation, it is necessary to do overhaul once in every five years. Innovation and revitalization for valve follow procedure of MAS method also done in every five years
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1. Bahrami, M., & Esmaeili, M. 2018. Predicting Software Reliability in Design for Controlling Hybrid Vehicles. International Journal of Academic Research in Computer Engineering. Volume 2, Number 1, Pages 17-23.
2. Barwood, M., Li, J., Pringle, T., & Rahimifard, S. (2015). Utilisation of reconfigurable recycling systems for improved material recovery from e-waste. Procedia cirp, 29, 746-751.
3. Bhimadi, T. 2016. Maintenance System based on Reliability, Unesa University Press.
4. Bhimadi, T., & Sujono, H A. 2014. Maintenance Methodology Based on Reliability Using Reliability Requirement Setting Model and Management Action Selection Method for Tanker Oil System, Proceeding the Third International Conference on Multidisciplinary Research, North Sumatra Islamic University, Medan.
5. Bhimadi, T., Sujono, H A., and Sukendro. 2014. Oil Tanker System Reliability Using Reliability Requirement Setting Model and Management Action Selection Method”, Proceeding of Manufacturing System National Seminar, Bandung Manufacturing State Politechnic, ISBN 978-979-17047-5-5, pp 505-510.
6. Boris V. G. & Igor A. U. 1995. Probabilistic Reliability Engineering”, A Wiley Interscience Publication John Wiley and Sons, Inc. Ottawa, Canada.
7. Calvaresi, D., Marinoni, M., Sturm, A., Schumacher, M., & Buttazzo, G. (2017, August). The challenge of real-time multi-agent systems for enabling IoT and CPS. In Proceedings of the international conference on web intelligence (pp. 356-364).
8. Correia, J. F. G. (2020). Reliability Study on Avionics: Feasibility Study to Determine Mean Time between Failure (MTBF) (Master's thesis, Universidade da Beira Interior (Portugal).
9. Colson, C. M., & Nehrir, M. H. (2013). Comprehensive real-time microgrid power management and control with distributed agents. IEEE Transactions on Smart Grid, 4(1), 617-627.
10. Crow, L, H. 2004. An Extended Reliability Growth Model for Managing and Assessing Corrective Actions. Proceeding of Annual Reliability and Maintainability Symposium, Los Angeles, California, pp 26-29.
11. Crow, L. H. 2008. “Practical Methods for Analyzing the Reliability of Repairable Systems”, Reliability edge Hc – Reliasoft doc., Vol. 5, Los Angeles, California.
12. Daulay, I, T. 2006“Secondary Room of Machinery Tanker System Report”, Ship System Engineering Department, Ocean Engineering Faculty, Surabaya Sepuluh Nopember Institute of Technology.
13. David D. D. and Mary G. P. 2009. “A new Reliability Assessment Technique for Aging Electronic Systems”, Paper from Reliability Analysis Center-RAC, Illinois Institute of Technology, http://rac.iitri.org, 19 June 2009.
14. Denson, W.,. Chandler, G., Crowell, W., & Wanner, R. 1991. Nonelectronic Parts Reliability Data, Ordering Number NPRD-81 Reliability Analysis Center, Rome Laboratory Griffiass, New York.
15. Dev, N. K., Shankar, R., & Qaiser, F. H. (2020). Industry 4.0 and circular economy: Operational excellence for sustainable reverse supply chain performance. Resources, Conservation and Recycling, 153, 104583.
16. Fazle, A. B., Prodhan, R. K., & Islam, M. M. (2023). AI-Powered Predictive Failure Analysis In Pressure Vessels Using Real-Time Sensor Fusion: Enhancing Industrial Safety And Infrastructure Reliability. American Journal of Scholarly Research and Innovation, 2(02), 102-134.
17. Hanga, K. M., & Kovalchuk, Y. (2019). Machine learning and multi-agent systems in oil and gas industry applications: A survey. Computer Science Review, 34, 100191.
18. Iung, B. (2003). From remote maintenance to MAS-based e-maintenance of an industrial process. Journal of Intelligent Manufacturing, 14, 59-82.
19. Kuschel T. 2017 The Capacitated Planned Maintenance Problem. In: Capacitated Planned Maintenance. Lecture Notes in Economics and Mathematical Systems, vol 686. Springer, Cham.
20. Lew, D., Bartlett, D., Groom, A., Jorgensen, P., O’Sullivan, J., Quint, R., ... & Stenclik, D. (2019). Secrets of successful integration: Operating experience with high levels of variable, inverter-based generation. IEEE Power and Energy Magazine, 17(6), 24-34.
21. Modarres, M., Kaminskiy, M. P., & Krivtsov, V. (2016). Reliability engineering and risk analysis: a practical guide. CRC press.
22. Moubray, J. 1992. “Reliability Centered Maintenance”, New York, Industrial Press Inc.
23. Naranjo, J. E., Caiza, G., Velastegui, R., Castro, M., Alarcon-Ortiz, A., & Garcia, M. V. (2022). A scoping review of pipeline maintenance methodologies based on industry 4.0. Sustainability, 14(24), 16723.
24. Nelson, W. 1982. “Applied Life Data Analysis”, New York, John Wiley and Sons, Inc,.
25. Odeyar, P., Apel, D. B., Hall, R., Zon, B., & Skrzypkowski, K. (2022). A review of reliability and fault analysis methods for heavy equipment and their components used in mining. Energies, 15(17), 6263.
26. Pertamina, “Planned Maintenance System Manual”, Trade and Commercial Ship Directory, Jakarta, 2007.
27. Priyatna, D. 2008. Maintenance and Reliability, High Education Program of Engineering, Register Number NE 1602, Ocean Engineering Faculty, Surabaya Sepuluh Nopember Institute of Technology.
28. Suef, M., & Winata, E. 2008. Management System of Ship Maintenance Design, Proceeding of 7th National Seminar at Management Role in Performance Improvement, Magister Management Technic, Post Graduate Faculty, Surabaya Sepuluh Nopember Institute of Technology, pp. A-14-1 sd. A-14-10.
29. Werbinska-Wojciechowska, S., & Rogowski, R. (2025). Proactive Maintenance of Pump Systems Operating in the Mining Industry—A Systematic Review. Sensors, 25(8), 2365.
30. Zhao, B., Xue, M., Zhang, X., Wang, C., & Zhao, J. (2015). An MAS based energy management system for a stand-alone microgrid at high altitude. Applied Energy, 143, 251-261.
