Title :
Comparison of distributed and lumped parameters stray current models
Author :
Fichera, F. ; Mariscotti, A. ; Ogunsola, A. ; Sandrolini, Leonardo
Author_Institution :
DITEN, Univ. of Genova, Genoa, Italy
Abstract :
DC electrified traction systems are a potential source of stray current, that may corrode both internal and external metal structures and installations. The stray current intensity depends on several factors (such as traction current, rail insulation, concrete mat and pier resistance) that need to be accounted for in any model for the estimation of stray current. The effect of an uniform or multilayer soil in such predictive model is of equal importance. In practice, there are numerous models that have been developed to investigate railway stray current phenomena; these models can be categorized into two - namely distributed parameter model and lump parameter model - based on the parameter model used. In this paper, both models are compared to highlight the differences between both methods.
Keywords :
corrosion; current distribution; electromagnetic interference; railway electrification; traction current collection; traction power supplies; DC electrified traction systems; concrete mat; distributed parameters stray current models; lumped parameters stray current models; pier resistance; rail insulation; railway stray current phenomena; traction current; Concrete; Integrated circuit modeling; Mathematical model; Rail transportation; Rails; Resistance; Soil; Corrosion; Electromagnetic conductive interference; Guideway transportation power systems; Power distribution electromagnetic interference; Stray current;
Conference_Titel :
AFRICON, 2013
Conference_Location :
Pointe-Aux-Piments
Print_ISBN :
978-1-4673-5940-5
DOI :
10.1109/AFRCON.2013.6757735
