Share:


Tram-train system as a potential transport solution for the Olomouc Region

    Stanislav Metelka Affiliation
    ; Vít Janoš Affiliation

Abstract

The article is focused on the frequently discussed topic of suburban and regional railway system modernization comparing different approaches to consider by local authorities. To make a precedent and to better contribute to practical problems, a middle-sized city of Olomouc (Czechia) is chosen to demonstrate the upgraded regional transport system design with respect to the regional specifics and utilizing of the current railway and tramway infrastructure. With a new, innovative approach to the potential tram-train implementation in the Olomouc Region, the technical and operational features of the current tram-train systems and vehicles are analysed. By implementing the most suitable ones, the regional tram-train system proposal in the conditions of Olomouc may serve as a guide for similar planned systems in the countries with limited legislative and technical experience regarding the tram-train systems (especially in Central Europe), their suitability for the region, their design, and introduction. For the qualitative assessment of the different relevant approaches, a comparative analysis is used. As a result of the analysis, a tram-train system is recommended for the further transport planning stages as it significantly improves both urban and suburban public transport in the Olomouc Region by increasing their average speed and accessibility. For better financial and technical implementation, the project is divided into several stages. Unlike the already presented solutions, it combines shorter travel times of the regional rail and the populated area coverage reached by regional buses and serves as both an attractive and financially sane extension of a regional public transport system.

Keyword : modal split, public transport, regional railway network, railway engineering, tram, tram-train, timetabling, transport planning

How to Cite
Metelka, S., & Janoš, V. (2024). Tram-train system as a potential transport solution for the Olomouc Region. Transport, 39(1), 25–36. https://doi.org/10.3846/transport.2024.21207
Published in Issue
Apr 11, 2024
Abstract Views
335
PDF Downloads
486
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Adamkiewicz, T. 2020. Possibilities and conditions of application of the Karlsruhe model in selected tramway systems in Poland, Transport Economics and Logistics 83: 141–152. https://doi.org/10.26881/etil.2019.83.11

Badcock, P. 2006. RandstadRail: metro and light rail make the connection, International Railway Journal 46(10): 32–35.

Bocz, P.; Vinkó, Á. 2017. Proposal for the wheel profile of the new tram-train vehicle in Hungary, in 4th International Conference on Road and Rail Infrastructure – CETRA 2016, 23–25 May 2016, Šibenik, Croatia, 709–714. Available from Internet: https://cetra.grad.hr/ocs/index.php/cetra4/cetra2016/paper/view/522

Borghetti, F.; Colombo, C. G.; Longo, M.; Mazzoncini, R.; Somaschini, C. 2021. Development of a new urban line with innovative trams, WIT Transactions on еhe Built Environment 204: 167–178. https://doi.org/10.2495/UT210141

Durzyński, Z.; Pachołek, M.; Cichy, R. 2018. Conditions for using of trams on railway tracks sections in agglomeration communication in Poland, MATEC Web of Conferences 180: 03002. https://doi.org/10.1051/matecconf/201818003002

Holzapfel, H.; Meyfahrt, R. 2015. The regional tram-train of Kassel, Germany: how regional responsibility leads to local success, in R. Hickman, M. Givoni, D. Bonilla, D. Banister (Eds.). Handbook on Transport and Development, 630–644. https://doi.org/10.4337/9780857937261.00050

Jakimavičius, M.; Burinskienė, M. 2013. Multiple criteria assessment of a new tram line development scenario in Vilnius City public transport system, Transport 28(4): 431–437. https://doi.org/10.3846/16484142.2013.869253

Janoš, V.; Kříž, M. 2018. Smart urban transport, in 2018 Smart City Symposium Prague (SCSP), 24–25 May 2018, Prague, Czech Republic, 1–5. https://doi.org/10.1109/SCSP.2018.8402664

KIDSOK. 2019. Plán dopravní obslužnosti území Olomouckého kraje: platný od roku 2019. Koordinátor Integrovaného dopravního systému Olomouckého kraje (KIDSOK), Olomouc, Česko. 92 s. Available from Internet: https://www.kidsok.cz/wp-content/uploads/2019/10/Pl%C3%A1n-dopravn%C3%AD-obslu%C5%BEnosti-%C3%BAzem%C3%AD-Olomouck%C3%A9hokraje-2019.pdf (in Czech).

Kołoś, A.; Taczanowski, J. 2016. The feasibility of introducing light rail systems in medium-sized towns in Central Europe, Journal of Transport Geography 54: 400–413. https://doi.org/10.1016/j.jtrangeo.2016.02.006

L’Hostis, A.; Soulas, C.; Vulturescu, B. 2016. A multi‐criteria approach for choosing a new public transport system linked to urban development: a method developed in the Bahn.Ville project for a tram‐train scenario in the Saint‐Étienne region, RTS. Recherche, Transports, Sécurité 32: 17–25. https://doi.org/10.4074/S0761898016002028

Makuch, J. 2017. Proposal of city tram-train line for Wrocław, Przegląd Komunikacyjny – Transportation Overview (7): 1–11. https://doi.org/10.35117/A_ENG_17_07_01

Maternini, G.; Riccardi, S.; Cadei, M. 2014. Effects of the realization of a new tram-train system for the regeneration of urban areas. The case of the metropolitan area of Brescia, CSE Journal – City Safety Energy (1): 39–49. https://doi.org/10.12896/cse2014001004

Matuška, J. 2017. Railway system accessibility evaluation for wheelchair users: case study in the Czech Republic, Transport 32(1): 32–43. https://doi.org/10.3846/16484142.2014.941396

Metelka, S. 2019. Možnosti zavedení vlakotramvají v aglomeraci města Olomouce [A Potential Tram-Train System Introduction in the Olomouc Urban Agglomeration]. Diplomová práce. České vysoké učení technické v Praze, Česko. 95 s. Available from Internet: https://dspace.cvut.cz/handle/10467/82907 (in Czech).

Metelka, S.; Janoš, V. 2021. Prerequisites of the successful tram-train system as a part of the regional railway network, in 6th International Conference on Road and Rail Infrastructure – CETRA 2020, 20–21 May 2021, Zagreb, Croatia, 431–439. https://doi.org/10.5592/CO/cetra.2020.1132

Michl, Z.; Drábek, M.; Vávra, R. 2017. NetGraph – an efficient tool for periodic timetabling and capacity planning, Acta Polytechnica CTU Proceedings 11: 43–48. https://doi.org/10.14311/APP.2017.11.0043

Naegeli, L.; Weidmann, U.; Nash, A. 2012. Checklist for successful application of tram-train systems in Europe, Transportation Research Record: Journal of the Transportation Research Board 2275: 39–48. https://doi.org/10.3141/2275-05

Novales, M.; Orro, A.; Bugarin, M. R. 2002. The tram-train: state of the art, Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit 216(1): 1–13. https://doi.org/10.1243/0954409021531638

Pilgr, A. 2017. Vlakotramvaj v České republice. Bakalářská práce. Univerzita Pardubice, Česko. 70 s. Available from Internet: https://dk.upce.cz/handle/10195/68638 (in Czech).

Połom, M.; Tarkowski, M.; Puzdrakiewicz, K. 2018. Urban transformation in the context of rail transport development: the case of a newly built railway line in Gdańsk (Poland), Journal of Advanced Transportation 2018: 1218041. https://doi.org/10.1155/2018/1218041

Potěšil, T.; Molková, T. 2006. The tram-train system application in Olomouc Region, Scientific Papers of the University of Pardubice. Series B, the Jan Perner Transport Faculty 12: 91–101.

Ricci, S.; Ľupták, V.; Chovancová, M. 2017. Baseline model to increase railway infrastructure capacity on a single-track section: a case study, LOGI – Scientific Journal on Transport and Logistics 8(2) 69–80. https://doi.org/10.1515/logi-2017-0018

Richer, C.; Hasiak, S. 2014. Territorial opportunities of tram-based systems: a comparative analysis between Nottingham (UK) and Valenciennes (FRA), Town Planning Review 85(2): 217–236. https://doi.org/10.3828/tpr.2014.14

Savchuk, I.; Nahornyi, T. 2020. Tramway as an indicator of the realisation of smart city concept, E3S Web of Conferences 159: 05013. https://doi.org/10.1051/e3sconf/202015905013

Seelmann, H. 2014. Electric rail traction in Czech Republic and level of effectiveness and energy saving measures, Elektryfikacija transportu – Electrification of Transport (7): 127–131. http://etr.diit.edu.ua/article/view/42328

Smoliner, M.; Hofer, K.; Walter, S.; Fellendorf, M. 2018. Strategic multimodal assessment of suburban transport infrastructure, in Proceedings of 7th Transport Research Arena TRA 2018, 16–19 April 2018, Vienna, Austria, 1–10. https://doi.org/10.5281/zenodo.1491585

Valášková, M.; Križanová, A. 2008. The passenger satisfaction survey in the regional integrated public transport system, Promet – Traffic & Transportation 20(6): 401–404. Available from Internet: https://trafficandtransportation.fpz.hr/trafficandtransportation/issues/article/1025

Velek, P. 2015. Využití systému TramTrain v podmínkách České Republiky [Utilization of the TramTrain System in the Czech Republic]. Diplomová práce. České vysoké učení technické v Praze, Česko. 91 s. Available from Internet: https://dspace.cvut.cz/handle/10467/64940 (in Czech).

Ventura, R.; Bonera, M.; Carra, M.; Barabino, B.; Maternini, G. 2022. Evaluating the viability of a tram-train system. A case study from Salento (Italy), Case Studies on Transport Policy 10(3): 1945–1963. https://doi.org/10.1016/j.cstp.2022.08.009