Wheelset Condition Monitoring based on pass-by vibration signals
Authors
Abstract:
Apart from regular wheel wear such as decreasing wheel diameters and reduced flange thicknesses and heights, wheel flats (WF) and oval wheels (or OOR, Out-Of-Roundness) are the most common wheelset problems for railway vehicles. Within the FP7 Research Project “Saferail”, APT has developed an innovative wheelset monitoring system so-called “Wheel flat and Out of Roundness Monitoring (WORM) system”. The monitoring system is installed on the track and is based on the vibration signals measured during the passage of trains. The main advantages of vibration signals are the short measurement time of just a few seconds, and the very limited number of sensors to be installed. As a consequence, the track space required for the installation of the equipment is very limited and thus the associated installation cost is significantly reduced. Early detection of wheel flats combined with appropriate corrective action not only contributes to lower track stresses and wear, but also results in a longer wheel life. The WORM system reports all measured vehicles via a web interface so no user software installations are necessary. A historical overview of measurements and alarms can easily be retrieved from the proposed system. Immediate alerts can be programmed to be sent by email or text message. These advantages make the APT-WORM system as a strong device to increase the service life of the wheel and decrease the maintenance cost by optimizing the maintenance intervals.
similar resources
Wheelset Condition Monitoring Based on Pass-by Vibration Signals
Apart from regular wheel wear such as decreasing wheel diameters and reduced flange thicknesses and heights, wheel flats (WF) and oval wheels (or OOR, Out-Of-Roundness) are the most common wheelset problems for railway vehicles. Within the FP7 Research Project “Saferail”, APT has developed an innovative wheelset monitoring system so-called “Wheel flat and Out of Roundness Monitoring (WORM) syst...
full textwheelset condition monitoring based on pass-by vibration signals
apart from regular wheel wear such as decreasing wheel diameters and reduced flange thicknesses and heights, wheel flats (wf) and oval wheels (or oor, out-of-roundness) are the most common wheelset problems for railway vehicles. within the fp7 research project “saferail”, apt has developed an innovative wheelset monitoring system so-called “wheel flat and out of roundness monitoring (worm) syst...
full textWheelset Bearing Vibration Analysis Based on Nonlinear Dynamical Method
The wheelset bearing play an important role in train running safety. In this paper, we introduce the nonlinear dynamical method to study the wheelset bearing vibration signal. Based on the comparative studies of the phase graph and the correlation dimension of the vibration signals under normal condition, outer peeling fault condition and rolling element electric erosion fault condition, the fo...
full textVibration Based Condition Monitoring in Rotating Machineries
In Chapters 15 and 16, the measurement and signal processing techniques, transducers, signal conditioners and signal analysis equipments are described, which are used in the rotating machinery condition monitoring. It is very important to display the measured signal in convenient form so as to be useful for the interpretation of the condition of rotating machinery. In the present chapter, by lo...
full textVibration Based Condition Monitoring: A Review
Vibration based condition monitoring refers to the use of in situ non-destructive sensing and analysis of system characteristics – in the time, frequency or modal domains – for the purpose of detecting changes, which may indicate damage or degradation. In the field of civil engineering, monitoring systems have the potential to facilitate the more economical management and maintenance of modern ...
full textBridge Structural Condition Assessment Based on Vibration and Traffic Monitoring
A stochastic model of traffic excitation on bridges is developed assuming that the arrival of vehicles traversing a bridge modeled as an elastic beam follows a Poisson process, and that the contact force of a vehicle on the bridge deck can be converted to equivalent dynamic loads at the nodes of the beam elements. The parameters in this model, such as the Poisson arrival rate and the stochastic...
full textMy Resources
Journal title
volume 3 issue 1
pages 47- 53
publication date 2015-02-01
By following a journal you will be notified via email when a new issue of this journal is published.
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023