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The paper evaluates the effectiveness of the electromechanical shock absorber for a subway car based on dynamic quality indicators. To determine them, a method of synthesis of random forced vertical oscillations of a dynamic model of a subway car was developed, which is based on the method of sliding summation taking into account the spectral density obtained when processing the test results of a subway car. Also in the work the technique on definition of indicators of dynamic quality of the metrocar with electromechanical shockabsorbers which is based on modeling of processes of movement of the subway car on a site of a way with casual roughness and definition, by results of modeling, indicators of dynamic quality is created. The study of forced random oscillations of the dynamic model of a subway car showed that the spring suspension based on electromechanical shock absorbers has a significant advantage over the central spring suspension for all quality indicators in the entire range of speeds. The dependence of the average power generated by the shock absorber is established.
Czasopismo
Rocznik
Tom
Strony
603--611
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- National Technical University «Kharkiv Polytechnic Institute», Department of Electrical Transport and Diesel Locomotive, Kyrpychova str., 2, Kharkiv, Ukraine, 61002
autor
- Warsaw Management University, Department of Technical Science, ul.Kawęczyńska 36, 03-772 Warsaw, Poland
autor
- Warsaw University of Technology, Faculty of Transport, ul. Koszykowa 75, 00-662 Warsaw, Poland
autor
- O. M. Beketov National University of Urban Economy in Kharkiv, Department of Electrical Transport, Marshala Bazhanova str., 17, Kharkiv, Ukraine, 61002
autor
- O. M. Beketov National University of Urban Economy in Kharkiv, Department of Electrical Transport, Marshala Bazhanova str., 17, Kharkiv, Ukraine, 61002
autor
- Kharkiv National Automobile and Highway University, Yaroslava Mudrogo str., 25, Kharkiv, Ukraine, 61002
autor
- Kharkiv National Automobile and Highway University, Yaroslava Mudrogo str., 25, Kharkiv, Ukraine, 61002
Bibliografia
- 1. Bogsjö K, Podgorski K, Rychlik I. Models for road surface roughness, Vehicle System Dynamics 2012,(50):725–747, https://doi.org/10.1080/00423114.2011.637566.
- 2. Gołębiowski P, Kukulski J. Preliminary study of shaping the railway track geometry in terms of their maintenance costs and capacity. Archives of Transport 2020; 53(1): 115–128, https://doi.org/10.5604/01.3001.0014.1787
- 3. Gysen B L J, Sande van der T P J, Paulides J J H, Lomonova E. Efficiency of a regenerative direct-drive electromagnetic active suspension. IEEE Transactions on Vehicular Technology 2011; 60(4): 1384-1393, https://doi.org/10.1109/TVT.2011.2131160
- 4. Jacyna M, Semenov I. Models of vehicle service system supply under information uncertainty. Eksploatacja i Niezawodnosc – Maintenance and Reliability 2020; 22 (4): 694–704, http://dx.doi.org/10.17531/ein.2020.4.1.
- 5. Kardas-Cinal E, Spectral distribution of derailment coefficient in non-linear model of railway vehicle–track system with random track irregularities. ASME Journal of Computational and Nonlinear Dynamics 2013; 8(3):031014, https://doi.org/10.1115/1.4023352.
- 6. Kardas-Cinal E. Investigation of ride comfort in a railway vehicle in the presence of random track irregularities. Archives of Transport 2006; 18 (1): 5-16.
- 7. Kardas-Cinal E. Statistical Method for investigating transient enhancements of dynamical responses due to random disturbances: Application to railway vehicle motion. ASME Journal of Vibration and Acoustics-Transactions 2020; 142 (6): 061008, https://doi.org 10.1115/1.4047067.
- 8. Kisilowski J, Kardas-Cinal E. On a certain method of examining stability of mathematical models of railway vehicles with disturbances occurring in real objects, Vehicle System Dynamics 1994, published online 2008, 23(1):262-273, https://doi.org/10.1080/00423119308969520
- 9. Kryukov Railway Car Building Plant. Catalogue Passenger car manufacturing. Electronic resource 2019; [ http://www.kvsz.com/images/catalogs/tsn.pdf].
- 10. Kukulski J, Gołębiowski P, Makowski J, Jacyna-Gołda I, Żak J. Effective Method for Diagnosing Continuous Welded Track Condition Based on Experimental Research. Energies 2021; 14(10):2889, https://doi.org/10.3390/en14102889
- 11. Kukulski J, Jacyna M, Gołębiowski P.Finite Element Method in Assessing Strength Properties of a Railway Surface and Its Elements. Symmetry-Basel 2019; 8(11): 1-29, http://doi.org/10.3390/sym11081014.
- 12. Liubarskyi B, Lukashova N, Petrenko O, Iakunin D, Nikonov O, Matsyi O. Building a mathematical model of the oscillations in subway cars equipped with electromechanical shock absorbers. Eastern-European Journal of Enterprise Technologies 2020;6(7(108)):51-59, https://doi.org/10.15587/1729-4061.2020.217183
- 13. Liubarskyi B, Lukashova N, Petrenko O, PavlenkoT, Iakunin D, Yatsko S,Vashchenko Y. Devising a procedure to choose optimal parameters for the electromechanical shock absorber for a subway car. Eastern-European Journal Of Enterprise Technologies 2019; 4(5 (100)):16-25, https://doi.org/10.15587/1729-4061.2019.176304.
- 14. Liubarskyi B, Lukashova N, Petrenko O, Yeritsyan B, Kovalchuk Y, Overianova L. Procedure for modeling dynamic processes of the electromechanical shock absorber in a subway car. Eastern-European Journal of Enterprise Technologies 2019; 5(5 (101)): 44-52. https://doi.org/ /10.15587/1729-4061.2019.181117.
- 15. Lozia Z, Kardas-Cinal E. The use of a linear half - vehicle model for the optimization of damping in the passive suspension system of a railway car. Archives of Transport 2016; 39(3): 31-49, https://doi.org/10.5604/08669546.1225448.
- 16. Lukashova N, Pavlenko T, Liubarskyi B, Petrenko O. Analysis of constructions of resports lingings of rail city electric mobile composition. Control, Navigation and Communication Systems. Academic Journal 2018; 5(51): 65-68, https://doi.org/https://doi.org/10.26906/SUNZ.2018.5.065.
- 17. Murzin R V. Vertical oscillations of a motor car of an electric train on four uniaxial trolleys and the choice of parameters of its spring suspension. Doctoral dissertation, Russian University of Transport 2003:110 pages.
- 18. Ruban V G, Matva A M. Solution of problems of dynamics of railway cars in the Mathcad package: textbook. Rostov State Transport University. Rostov 2009; 99 p.
- 19. Serdobintsev E V, Zvantsev P N, Han Y. Choice of parameters for a metro coach with pneumatic springs. World of Transport and Transportation 2014, 1: 34-41 (in Russian)
- 20. Serdobintsev E V, Han Y. Vertical Oscillations of the Metro Wagon with Pneumatic Suspension. World of Transport and Transportation 2013; 2: 78–84 (in Russian).
- 21. Sergienko A N. Mathematical model of oscillations in the running system of a car with electromagnetic damping. Bulletin of the National Technical University "KhPI". Collection of scientific works. Series: Transport Engineering 2013; – Kh.: NTU "KhPI". ss.31 (1004). P. 6–93.
- 22. Standards for calculation and assessment of strength of load-bearing elements and dynamic qualities and impact on the track of the crew part of the locomotives of the railways of the Ministry of Railways of the Russian Federation gauge 1520 mm. Moscow: MPS of Russia 1998; 145 p.
- 23. Sulym A O, Fomin O V, Khozia P O, Mastepan A G.Theoretical and practical determination of parameters of on-board capacitive energy storage of the rolling stock. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu 2018; 5:79-87 https://doi.org/10.29202/nvngu/2018-5/8.
- 24. Szaciłło L, Jacyna M, Szczepański E, Izdebski M. Risk assessment for rail freight transport operations. Eksploatacja i Niezawodnosc –Maintenance and Reliability 2021; 23 (3): 476–488, http://doi.org/10.17531/ein.2021.3.
- 25. Vaskovskyi Yu M, Poda M V. Energy efficiency assessment for energy recovery systems of mechanical vibrations of vehicles. Bulletin of NTU Kharkiv Polytechnic Institute Series Electrical Machines and Electromechanical Energy Conversion 2020; 3 (1357): 52-55, https://doi.org/10.20998/2409-9295.2020.3.09.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-40f41e94-421e-4ebd-b75d-dce03ed49576