Abstract
In Europe, the attention to efficiency and safety of international railway freight transport has grown in recent years and this has drawn attention to the importance of verifying the clearance between vehicle and lining, mostly when different and variable rolling stock types are expected. This work consists of defining an innovative methodology, with the objective of surveying the tunnel structures, verifying the clearance conditions, and designing a retrofitting work if necessary. The method provides for the use of laser scanner, thermocameras, and ground penetrating radar to survey the geometrical and structural conditions of the tunnel; an algorithm written by the authors permits to verify the clearances. Two different types of works are possible if the inner tunnel surfaces interfere with the profile of the rolling stock passing through: modification of the railroad track or modification of the tunnel intrados by mean milling of its lining. The presented case study demonstrates that the proposed methodology is useful for verifying compatibility between the design vehicle gauge and the existing tunnel intrados, and to investigate the chance to admit rolling stocks from different states. Consequently, the results give the railway management body a chance to perform appropriate measurements in those cases where the minimum clearance requirements are not achieved.
Highlights
Rail transport involves a guided system dictated by the track structure
In Europe the interest for liberalizing the railway sector has grown fast over the years, and corridors have been established to enhance rail transport, there is still a need to apply a common standardization of vehicle and structure gauge
Geometrical evaluations should be carried out to verify if the greater freedom of access to the infrastructure and the full opening of the rail freight and passenger transport are possible through the existing tunnels
Summary
Rail transport involves a guided system dictated by the track structure. The rail track is a layered system composed of the permanent way and the formation [1]. The loading gauge with the sum of the clearance (structure gauge) shall be verified against the existing tunnel inner surfaces. The amount of clearance between the loading gauge and the structure gauge depends on the speed of the train This issue is strictly current as a consequence of the liberalization of the European railway sector so the size of the rolling stock can increase to allow the best performances of the freight trains. The European Regulation EU 913/2000 established nine international market-oriented European corridors to enhance and facilitate rail freight transport [6] Their implementation remains unsatisfactory [7,8], but on the other hand it cannot be built without verification of existing infrastructures, as confirmed by the European Standard EN 15273-3 [9], which refers to structure gauges. The method allows the rail infrastructure managers to implement appropriate strategies to achieve requirements laid by the Union Internationale des Chemins de fer balancing often conflicting safety and liberalization objectives (especially considering different national standards) [22]
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