Abstract
The gradual deterioration of train wheels can increase the risk of failure and lead to a higher rate of track deterioration, resulting in less reliable railway systems with higher maintenance costs. Early detection of potential wheel damages allows railway infrastructure managers to control railway operators, leading to lower infrastructure maintenance costs. This study focuses on identifying the type of sensors that can be adopted in a wayside monitoring system for wheel flat detection, as well as their optimal position. The study relies on a 3D numerical simulation of the train-track dynamic response to the presence of wheel flats. The shear and acceleration measurement points were defined in order to examine the sensitivity of the layout schemes not only to the type of sensors (strain gauge and accelerometer) but also to the position where they are installed. By considering the shear and accelerations evaluated in 19 positions of the track as inputs, the wheel flat was identified by the envelope spectrum approach using spectral kurtosis analysis. The influence of the type of sensors and their location on the accuracy of the wheel flat detection system is analyzed. Two types of trains were considered, namely the Alfa Pendular passenger vehicle and a freight wagon.
Highlights
The presence of a geometric defect in the interface between the rail and the wheel is one of the sources of dynamic train interaction
This paper aimed to identify the best options regarding the type of sensors and their location in a wayside system for wheel flat detection
A wheel flat recognition methodology has been developed based on simulated signals obtained with a vehicle-track interaction model. Both shear and acceleration measurement points were considered to examine the sensitivity of the layout schemes to the type of sensors and to the position where they are installed
Summary
The presence of a geometric defect in the interface between the rail and the wheel is one of the sources of dynamic train interaction. Wheel tread imperfections are usually divided into two main categories: (i) defect along part of the wheel circumference and (ii) defect around the entire wheel. These are both regarded as types of wheel out-of-roundness (OOR) phenomena. The main focus of this research is the development of techniques that accurately identify the presence of defective wheels, namely with flats [7,8,9,10,11,12]
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