Analysis of proactive maintenance of turbochargers
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Abstract
This article analyzes the work performed to improve the reliability and technical operation of turbocharger equipment. Using the proactive method, it becomes expedient to use the results of research, as well as to apply the experience acquired over the years of technical operation of the equipment to other similar installations in various industries. The article shows a successful example of using the results of research and application work on tankers of the marine fleet in the development of technical operation of turbochargers at the Odesa Port Plant. The results have been implemented in the process of technical operation and have been further developed in a research and applied manner. The experience gained during the technical operation of turbocharger equipment can and should be transferred and implemented again on turbo-propelled vessels, as well as in other areas of the transport industry. The episodes described in the article allow to increase the reliability and durability of the technical operation of ship main turbines and turbo drives.
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References
2. Mаkoto Ito, Kazuyoshi Hiraoka, Shoiсhs Matsumoto, et al. (2007) Develop- ment of High Efficiency Marine Propulsion Plant (Ultra Steam Turbine). Mitsubishi Heavy Industries, Ltd. Technical Review. Vol. 44 no. 3 Available at: https://www.mhi.co.jp/technology/review/pdf/e443/e443015.pdf (accessed 24 December 2024) [in English].
3. Solomatin S.Ja., Kraevskij V.N., Cherkashhenko A.S. (2014) Proaktivnoe obsluzhivanie turbin 103JT ammiachnogo proizvodstva OPZ // Kompres- sornaja tehnika i pnevmatika [Proactive maintenance of 103JT turbines of Odessa Portside Plant ammonia production // Compressor Technique and Pneumatics], no. 7, Р. 14-19 [in Russian].
4. Solomatin S.Ya., Storchak A.A. (2005) Opredelenie velichiny ishodnoj rascentrovki valov centrobezhnogo kompressora s uchetom neravnomernyh teplovyh deformacij opor [Determination of the initial misalignment value of centrifugal compressor shafts taking into account non-uniform thermal deformations of supports], Vestnik ONMU no.16. [in Russian]
5. Solomatin S.Ia., Kraevskii V.N., Kuz'min K.A. (2012) Osobennosti vibratsionnogo sostoianiia tsen-trobezhnogo kompressora pri ostanove [Peculiarities of vibrational state of centrifugal compressor while stopping]. Kompressornaia tekhnika i pnevmatika, no. 1, Р. 12-16. [in Russian].
6. IT-Enterprise (2024). Metodolohii upravlinnia. Predictive Maintenance [Management methodologies. Predictive Maintenance] Retrieved from: https://www.it.ua/knowledge-base/technology-innovation/pdm (accessed 24 December 2024) [in Ukrainian].
7. Visure Solutions, Inc (2024). What is Reliability-Centered Maintenance (RCM)? Retrieved from: https://visuresolutions.com/uk/Керівництво-fmea-з-управління-ризиками/обслуговування,-орієнтоване-на-надійність/ (accessed 24 December 2024) [in Ukrainian].
8. R.P. Sinha, Wan Mohd Norsani Wan Nik (2012) Investigation of propulsion system for large LNG ships IOP Conf. Series: Materials Science and Engineering 36 https://doi.org/10.1088/1757-899X/36/1/012004 [in English].
9. E.C. Fitch (2013) Proactive maintenance of mechanical systems, Issue 5 of the Dr. E.C. Fitch Technology Transfer Series, Elsevier. [in English].
10. Canito, A. et al. (2017). An Architecture for Proactive Maintenance in the Machinery Industry. Ambient Intelligence – Software and Applications – 8th International Symposium on Ambient Intelligence (ISAmI 2017). ISAmI 2017. Advances in Intelligent Systems and Computing, vol. 615. Springer, Cham. https://doi.org/10.1007/978-3-319-61118-1_31. [in English].