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Analysis of transverse stability parameters of hybrid buses with active trailers

DSpace at Ternopil State Ivan Puluj Technical University

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Title Analysis of transverse stability parameters of hybrid buses with active trailers
 
Creator Sakhno, Volodymyr Prokhorovych
Сахно, Володимир Прохорович
Poliakov, Victor Mykhaylovych
Поляков, Віктор Михайлович
Murovanyi, Igor Sergiyovych
Мурований, Ігор Сергійович
Selezniov, Vadim
Селезньов, Вадим
Vovk, Yuriy Yaroslavovych
Вовк, Юрій Ярославович
 
Contributor National Transport University
Lutsk National Technical University
Ternopil Ivan Puluj National Technical University
 
Subject bus
hybrid auto-train
transverse stability
stiffness
suspension
roll
 
Description The objective of the article is to determine the transverse stability indexes of hinged-connected buses by applying the computation and analytical method. The transverse stability parameters of hybrid buses with active trailers are analyzed. Based on the transverse stability parameters (the angles of the roll and redistribution of loads on the sides), the analytical dependences are developed. The dependences describe the movement of the parts of hinged-connected buses in the vertical plane. Considering the action of longitudinal and transverse forces, the roll angles of the bus and the trailer were determined. The limiting angle of the side roll of the bus rollover was found to be амах = 27.560мах, and the trailer rollover - амах = 30.210. The obtained transverse stability indexes of hinged-connected buses with a hybrid power plant testify to the compliance with the standard DSTU UN / ECE R 111-00.
 
Date 2018-12-15T06:35:14Z
2018-12-15T06:35:14Z
2018-12
 
Type Article
 
Identifier Sakhno, V., Poliakov, V., Murovanyi, I., Selezniov, V., Vovk, Y. Analysis of transverse stability parameters of hybrid buses with active trailers. Scientific Journal of Silesian University of Technology. Series Transport. 2018, 101, 185-201. ISSN: 0209-3324. DOI: https://doi.org/10.20858/sjsutst.2018.101.17.
http://elartu.tntu.edu.ua/handle/lib/26341
Sakhno, V., Poliakov, V., Murovanyi, I., Selezniov, V., Vovk, Y. Analysis of transverse stability parameters of hybrid buses with active trailers. Scientific Journal of Silesian University of Technology. Series Transport. 2018, 101, 185-201. ISSN: 0209-3324. DOI: https://doi.org/10.20858/sjsutst.2018.101.17.
10.20858/sjsutst.2018.101.17
 
Language en
 
Relation ДСТУ UN/ECE R 36-03:2002. 2002. Єдині технічні приписи щодо офіційного затвердження пасажирських транспортних засобів великої місткості стосовно загальної конструкції (Правила ЄЕК ООН №36-03: 1993, IDT). [In Ukrainian: GOST UN/ECE R 36-03:2002. 2002. Uniform Technical Prescriptions Concerning the Approval of Passenger Vehicles of Large Capacity in Relation to the Overall Design (UN/ECE Regulations №36-03: 1993, IDT).] Kiev: State Committee of Ukraine for Technical Regulation and Consumer Policy.
ДСТУ UN/ECE R 111-00: 2002. 2002. Єдині технічні приписи щодо офіційного затвердження автоцистерн категорій N і O стосовно їх стійкості проти перекидання. [In Ukrainian: DSTU UN/ECE R 111-00: 2002. 2002. Uniform Technical Prescriptions Concerning the Approval of Tank Vehicles Categories N and O with Respect to their Resistance to Rollover.] Kiev: State Committee of Ukraine for Technical Regulation and Consumer Policy.
ДСТУ 3310-96. 1996. Засоби транспортні дорожні. Стійкість. Методи визначення основних параметрів випробуваннями. [In Ukrainian: GOST 3310-96. 1996. Transport Vehicles. Stability. Methods of Identifying Key Parameter Tests.] Kiev: State Standard of Ukraine.
Vansauskas V., M. Bogdevičius. 2009. “Investigation into the Stability of Driving an Automobile on the Road Pavement with Ruts”. Transport 24(2): 170-179.
Matolcsy M. 2007. “The Severity of Bus Rollover Accidents. ESV Paper 989.
European Commission Council Regulation (EC). 1998. EC No 2135/98 of 24 September 1998 Amending Regulation (EEC) No 3821/85 on Recording Equipment in Road Transport and Directive 88/599/EEC Concerning the Application of Regulations (EEC) No 3820/84 and (EEC) No 3821/85 Official Journal L 274, 09/10/1998: 1-21.
Matolcsy M. 2001. “Standard Accident as the Basis of Vehicle Approval Test”. International EAEC Congress, Bratislava, Section BO1, Safety: 9.
ECE Regulation 66 Test of Motor Coach Roof Strength 1991. 2007. Prevost Lemirage Motor Coach/Report Number: 66-MGA-2007-002 R: 237.
EOBUS. 2008. “Scania Higer A80 Passed European Rollover Test”. Available at: http://www.eobus.com/news/105.htm.
Irizar PB. 2017. “Tour Bus”. Available at: http://www.irizar.com.
Pacejka H. 2005. Tyre and Vehicle Dynamics. Elsevier.
Sachs H., M. Singh. 1977. “Automobile Stability - A Study of the Domain of Attraction”. Vehicle System Dynamics 6(2-2): 169-177.
Антонов Д. А. 1984. Расчет устойчивости движения многоосных автомобилей. [In Russian: Antonov D. 1984. Calculation of Stability of Motion of Multiaxle Cars.] Moscow: Mashinostroenie.
Rice R.S., W.F. Milliken. 1980. “Static Stability and Control of the Automobile Utilizing the Moment Method”. SAE Technical Paper No. 800847.
Segel L. 1966. “On the Lateral Stability and Control of the Automobile as Influenced by the Dynamics of the Steering System”. Journal of Engineering for Industry 88(3): 283- 294.
Segel L. 1957. “Research in the Fundamentals of Automobile Control and Stability”. SAE Technical Paper No. 570044.
Sakashita K., T. Okada. 1964. “Effects of Dynamical Features of Steering System on Automobile Stability and Control, Predicted by Linearized Theory”. Journal of Society of Automotive Engineers of Japan 18(4): 268-273.
Фаробин Я.Е., В.С. Шупляков. 1983. Оценка эксплуатационных качеств автопоездов для международных перевозок. [In Russian: Farobyn Ya., V. Shuplyakov. 1983. Evaluation of Operation Qualities of Car Trains for International Transit.] Moscow: Transport.
Vuchic V.R. 2002. “Bus Semirapid Transit Mode Development and Evaluation”. Journal of Public Transportation 5(2): 71-85.
Moulin L.S., A.A. Da Silva, M.A. El-Sharkawi, R.J. Marks. 2004. “Support Vector Machines for Transient Stability Analysis of Large-scale Power Systems”. IEEE Transactions on Power Systems 19(2): 818-825.
Czech P. 2017. “Physically disabled pedestrians - road users in terms of road accidents”. In: E. Macioszek, G. Sierpiński, eds., Contemporary Challenges of Transport Systems and Traffic Engineering. Lecture Notes in Network Systems 2: 157- 165. Cham, Switzerland: Springer.
Czech P. 2017. “Underage pedestrian road users in terms of road accidents”. In: G. Sierpiński, ed., Intelligent Transport Systems and Travel Behaviour. Advances in Intelligent Systems and Computing 505: 75-85. Cham Switzerland: Springer.
Sokolovskij E., O. Prentkovskis. 2013. “Investigating traffic accidents: the interaction between a motor vehicle and a pedestrian”. Transport 28(3): 302-312.
Dyakov I., O. Prentkovskis. 2008. “Optimization problems in designing automobiles”. Transport 23(4): 316-322.
Schmidt M., S. Voss. 2017. “Advanced systems in public transport”. Public Transport 9(1-2): 3-6.
Stopka O., B. Sarkan, M. Chovancova, L.M. Kapustina. 2017. “Determination of the appropriate vehicle operating in particulat urban traffic conditions”. Komunikacie 2: 18- 22.
Andoga R., F. Adamcik jr., J. Hrabowsky, T. Vaispacher. 2016. “A Hybrid Diagnostic System for a Small Turbojet Engine”. Nase More 63(3): 86-92.
Mbara T.C. 2016. “Tuk-tuk, 'new kid on the block' in Johannesburg: Operational and user travel characteristics, competition and impacts”. Journal of Transport and Supply Chain Management 10(1)(a214): 1-9. DOI: https://doi.org/10.4102/jtscm.v10i1.214.
 
Format 185-201
 
Coverage Silesian University of Technology, Katowice
PL
 
Publisher Silesian University of Technology, Katowice