Optimal for unit costs forecasting the resource of frame insulation of a traction motor of locomotives

Authors

  • Y. Kozik

DOI:

https://doi.org/10.32703/2617-9040-2019-34-1-3

Keywords:

frame insulation, return voltage, control of the insulation condition, traction motor maintenance system

Abstract

The aim of the research is to improve the maintenance  system of a traction motor (TM) ED-118A by predicting the life of frame insulation and determining  recovery moments while ensuring the lowest unit costs for performing major repairs of volume 1 (MjR-1) and permanent repair of volume 3 (PR-3), taking into account the degree of recovery, using data on the insulation state by the return voltage method operation.  In  the research , the optimization of the unit costs for the overhaul of the MjR-1 and the  repair of the PR-3 to restore the insulation properties, with restrictions on the value of the return voltage and the insulation  mileage  to MjR‑2, taking into account the degree of restoration when performing the PR‑3 and MjR-1. A method is proposed for predicting the life of frame insulation and determining  moments of its recovery, taking into account the recovery factor when performing PR‑3 and performing MjR‑1 and data on observations of the return voltage. Researches were carried out in accordance with the “State Program for the Strategic Development of  Ukrainian Railways”, prepared by the State Research Center for Railway Transport of Ukraine in conjunction with Ukrzaliznytsya specialists and the Program for the renewal of railway rolling stock for the period up to 2020, where indicated by need for creation of modern systems maintenance and repair of traction rolling stock of a new generation and the development of appropriate regulatory documents.

References

В.М. Самсонкін, О.М. Гончаров, С.Г. Грищенко та ін. Комплексна програма оновлення залізничного рухомого кладу України на 2008 – 2020 роки. Укрзалізниця. К.:ДП ДНДЦ УЗ, 2009. 300 с.

А .А. Босов, П. А. Лоза. Теоретические основы рационального содержания подвижного состава железных дорог: Монография. Днепропетровск: Дриант, 2015. 252 с. ISBN 978-966-2394-15-3.

Asadzadeh, S.M., Azadeh, A., 2014. An integrated systemic model for optimization of condition-based maintenance with human error. Reliability Engineering & System Safety, 124:117-131. [doi:10.1016/j.ress.2013.11.008].

Lu, X.F., Liu, M., 2014. Hazard rate function in dynamic environment. Reliability Engineering & System Safety, 130:50-60. [doi:10.1016/j.ress.2014.04.020].

Shi, H., Zeng, J.C., 2014. Preventive maintenance strategy based on life prediction. Computer Integrated Manufacturing Systems, 20(5):1133-1140 (in Chinese).

Yin, H., Zhang, G.J., Zhu, H.P., et al., 2015. An integrated model of statistical process control and maintenance based on the delayed monitoring. Reliability Engineering & System Safety, 33:323-333. [doi:10.1016/j.ress.2014. 09.020].

Tang, D.Y., Makis, V., Jafari, L., et al., 2015. Optimal maintenance policy and residual life estimation for a slowly degrading system subject to condition monitoring. Reliability Engineering & System Safety, 134:198-207. [doi:10.1016/j.ress.2014.10.015].

Shi, H., Zeng, J.C., 2014. Preventive maintenance strategy based on life prediction. Computer Integrated Manufacturing Systems, 20(5):1133-1140 (in Chinese).

Montoro-Cazorla, D., Pérez-Ocón, R., 2014. A reliability system under different types of shock governed by a Markovian process and maintenance policy K. European Journal of Operational Research, 235(3):636-642. [doi:10.1016/j.ejor.2014.01.021].

Lin, Y.H., Li, Y.F., Zio, E., 2014. Multi-state physics model for the reliability assessment of a component under degradation processes and random shocks. ESREL, Amsterdam, the Netherlands, p.1-7.

Lin, Y.H., Li, Y.F., Zio, E., 2015. Integrating random shocks into multi-state physics models of degradation processes for component reliability assessment. IEEE Transactions on Reliability, 64(1):154-166. [doi:10.1109/TR.2014. 2354874].

Caballé, N.C., Castro, I.T., Pézrez, C.J., et al., 2015. A condition-based maintenance of a dependent degradationthreshold-shock model in a system with multiple degradation processes. Reliability Engineering & System Safety, 134:98-109. doi:10.1016/j.ress.2014.09.024].

Castro, I.T., Caballé, N.C., Pérez, N.C., 2015. A conditionbased maintenance for a system subject to multiple degradation processes and external shocks. International Journal of Systems Science, 46(9):1692-1704. [doi:10.1080/00207721.2013.828796].

Nefedov, Roman & Loginova, Elena., 2018. Investigation of wear of insulation of traction engines of locomotives in operation. ITM Web of Conferences. 18. 01006. [doi: 10.1051/itmconf/20181801006].

Jian ZHANG, Ji-en MA, Xiao-yan HUANG, et al., 2015. Optimal condition-based maintenance strategy under periodic inspections for traction motor insulations. Journal of Zhejiang University-SCIENCE A (Applied Physics & Engineering), 16(8):597-606. [doi:10.1631/jzus.A1400311]

М.И. Капица, В. В. Лагута, Т. Н. Сердюк Определение системы диагностирования ТЭД с учетом выбора предпочтительных элементов с изменяющейся интенсивностью // Інформаційно-керуючі системи на залізничному транспорті. 2017. № 4. Харьков: Вид-во УкрДУЗТ. С. 9 –15.

Serdiuk T., Feliziani M., Serdiuk K., 2018. About electromagnetic compatibility of track circuits with the traction supply system of railway / Proc. of the 2018 International Symposium on Electromagnetic Compatibility -EMC EUROPE 2018. - Publisher: IEEE. Conference Location: Amsterdam, Netherlands. 27-30 Aug. 2018. Pages: 242 – 247. [DOI: 10.1109/EMCEurope.2018.8485034]

Michail Kapitsa, Vasiliy Laguta, Yuriy Kozik, «Selecting the Parameters of The Diagnosis of Frame Insulation Condition in Electrical Machines of Locomotives», International Journal of Engineering & Technology, Vol. 7 (4.3) (2018), pp. 110-114. DOI: 10.14419/ijet.v7i4.3.19718.

Olivier Barré, Bellemain Napame . The Insulation for Machines Having a High Lifespan Expectancy, Design, Tests and Acceptance Criteria Issues. Machines 2017, 5(1), 7; https://doi.org/10.3390/machines5010007

Методы контроля изоляции по возвратному напряжению и кривой саморазряда. Контроль изоляции по возвратному напряжению. Режим доступа: http://ргр-тоэ.рф/tehnika-vyisokih-napryazheniy/126-metody-kontrolya-izolyacii-po-vozvratnomu-napryazheniyu-i-krivoy-samorazryada.html

И. М Меламедов. Физические основы надежности . Л., Энергия , 1970. С. 132-138.

Правила ремонту електричних машин тепловозів. № ЦТ-0064: Наказ Укрзалізниці від 23.02.03 р. № 53-Ц. / К., ТОВ Видавничий дім „САМ", 2003. 148 с

Published

2019-12-24

How to Cite

Kozik, Y. (2019). Optimal for unit costs forecasting the resource of frame insulation of a traction motor of locomotives. Transport Systems and Technologies, (34), 30–47. https://doi.org/10.32703/2617-9040-2019-34-1-3

Issue

Section

Technics and techology