Rectifier substation placement on DC traction systems has been the purpose of several works which have tried to establish mathematical models to optimise that placement. Those mathematical models were always performed to optimise one variable like distance between substations, consumed energy or peak demand. This study presents the rectifier substation placement through optimisation techniques, specifically genetic algorithm. This proposed technique differs from the early presented ones because the genetic algorithm is applied on substation placement for DC traction systems, considering the variations of train position and train power consumption during their operations, in order to keep all traction substations evenly loaded. In this study, the chosen parameters for optimal rectifier placement are peak demand and consumed energy, which is illustrated with the application of the proposed method.
Optimal placement of rectifier substations on DC traction systems
IET Electrical Systems in Transportation ; 4 , 3 ; 62-69
2014-09-01
8 pages
Article (Journal)
Electronic Resource
English
train position , genetic algorithms , optimal rectifier placement , peak demand , traction substations , rectifier substation placement , consumed energy , train power consumption , rectifier substations , mathematical model , traction , optimal placement , DC traction systems , optimisation technique , genetic algorithm
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