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A.Wagner¹, J. Zajicek³, L. Lehner^1,2, B. Stadlmann⁴, F. Michelberger¹, G. Schneider⁴, T. Penkner⁴ and K. Zöchmeister¹

¹St. Pölten University of Applied Sciences, Austria
²Austrian Federal Railways (ÖBB) Infrastructure AG, Austria
³Austrian Institute of Technology GmbH, Austria
⁴Upper Austria - University of Applied Sciences, Campus Wels, Austria

doi:10.4203/ccc.1.17.9

A.Wagner, J. Zajicek, L. Lehner, B. Stadlmann, F. Michelberger, G. Schneider, T. Penkner,, K. Zöchmeister, "Strategic consideration of the impact of automotive freight wagons on branch lines", in J. Pombo, (Editor), "Proceedings of the Fifth International Conference on Railway Technology: Research, Development and Maintenance", Civil-Comp Press, Edinburgh, UK, Online volume: CCC 1, Paper 17.9, 2022, doi:10.4203/ccc.1.17.9

Keywords: shunting, modal shift, single wagon transport, automatization, driverless, ATO.

Abstract

With regard to climate change, it is necessary to promote modal shifts to the low-CO2 transport mode of rail. One approach to this is to make existing modes of transport more attractive in order to create incentives to switch. In the autoSHUNTING project, in addition to the use of an automated shunting unit, it was also investigated how the use of a self-driving freight wagon can be implemented. For this purpose, an existing daily schedule of a shunting crew was analysed. From this, conclusions were drawn as to how a self-propelled freight wagon can be operated on a branch line. In order to consider the effects of the self-propelled freight wagon on the operation, an operation simulation was created. A specific branch line was chosen for this simulation. The respective requirements of the self-propelled freight wagon were included in the simulation. For this purpose, different operations in industrial sidings were carried out and also crossings by passenger trains were considered. It was shown that the use of a self-propelled freight wagon with a speed of 10 km/h is possible in the specific case of application and does not significantly restrict operations. It can therefore be seen that, in a subsequent step, the development of a self-propelled freight wagon may have potential.

This paper is not available due to Editorial and Copyright reasons.

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Front Page Browse CCC CCP CSETS CTR IJRT Other Authors Search Purchase Guide FAQ Contact us	Civil-Comp Conferences ISSN 2753-3239 CCC: 1 PROCEEDINGS OF THE FIFTH INTERNATIONAL CONFERENCE ON RAILWAY TECHNOLOGY: RESEARCH, DEVELOPMENT AND MAINTENANCE Edited by: J. Pombo Paper 17.9 Strategic consideration of the impact of automotive freight wagons on branch lines A.Wagner¹, J. Zajicek³, L. Lehner^1,2, B. Stadlmann⁴, F. Michelberger¹, G. Schneider⁴, T. Penkner⁴ and K. Zöchmeister¹ ¹St. Pölten University of Applied Sciences, Austria ²Austrian Federal Railways (ÖBB) Infrastructure AG, Austria ³Austrian Institute of Technology GmbH, Austria ⁴Upper Austria - University of Applied Sciences, Campus Wels, Austria doi:10.4203/ccc.1.17.9 Full Bibliographic Reference for this paper A.Wagner, J. Zajicek, L. Lehner, B. Stadlmann, F. Michelberger, G. Schneider, T. Penkner,, K. Zöchmeister, "Strategic consideration of the impact of automotive freight wagons on branch lines", in J. Pombo, (Editor), "Proceedings of the Fifth International Conference on Railway Technology: Research, Development and Maintenance", Civil-Comp Press, Edinburgh, UK, Online volume: CCC 1, Paper 17.9, 2022, doi:10.4203/ccc.1.17.9 Keywords: shunting, modal shift, single wagon transport, automatization, driverless, ATO. Abstract With regard to climate change, it is necessary to promote modal shifts to the low-CO2 transport mode of rail. One approach to this is to make existing modes of transport more attractive in order to create incentives to switch. In the autoSHUNTING project, in addition to the use of an automated shunting unit, it was also investigated how the use of a self-driving freight wagon can be implemented. For this purpose, an existing daily schedule of a shunting crew was analysed. From this, conclusions were drawn as to how a self-propelled freight wagon can be operated on a branch line. In order to consider the effects of the self-propelled freight wagon on the operation, an operation simulation was created. A specific branch line was chosen for this simulation. The respective requirements of the self-propelled freight wagon were included in the simulation. For this purpose, different operations in industrial sidings were carried out and also crossings by passenger trains were considered. It was shown that the use of a self-propelled freight wagon with a speed of 10 km/h is possible in the specific case of application and does not significantly restrict operations. It can therefore be seen that, in a subsequent step, the development of a self-propelled freight wagon may have potential. This paper is not available due to Editorial and Copyright reasons. go to the previous paper go to the next paper return to the table of contents return to the volume description
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