Original scientific paper
https://doi.org/10.7307/ptt.v35i2.81
Various Approaches to Reduce Consequences of Pedestrian−Tram Front End Collision
Roman Ježdík
; VÚKV a. s., Research, development and testing of railway rolling stock; Faculty of Physical Education and Sport, Charles University
Vladislav Kemka
; Regional Technology Institute, University of West Bohemia
Jan Kovanda
; Regional Technology Institute, University of West Bohemia
František Lopot
; Advanced Engineering, s.r.o.; Faculty of Physical Education and Sport, Charles University
Hynek Purš
; Advanced Engineering, s.r.o.; Faculty of Physical Education and Sport, Charles University
Barbora Hájková
; ŠKODA TRANSPORTATION a.s.; Faculty of Physical Education and Sport, Charles University
Abstract
Safety of rail vehicles is an important feature of sustainable public transport. Proofs of an effort in that area are new recommendations and regulations from the expert commission (WG2 of the Technical Committee CEN / TC 256) regarding trams and light rail vehicles aimed at vulnerable road users. Additional requirements on tram safety can be requested by the vehicle operator and/or city. Pedestrian safety measures can be adopted from the automotive sector utilising the protection principles from Regulation EC No. 78/2009, ECE/UN regulations, and EuroNCAP tests. The purpose of this publication is to introduce a simplified testing method for the tram front end with respect to pedestrian head-on collisions. Testing methods based on segment impactors were generally accepted. The wrap-around distance defines the assessment of vehicle impact areas. A mathematical model was created to compare the results of the full-scale tests and the segment tests done by the standard and simplified aluminium head impactors. The tram front-end design can be tested using this alternate method, based on a simple impactor and easy methodology, providing an efficient tool to inspire both the tram manufacturers and vehicle operators to improve the vulnerable road users’ safety in city traffic.
Keywords
passive safety; tram; head injury; pedestrian collision; tram safety; evaluation
Hrčak ID:
301135
URI
Publication date:
25.4.2023.
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