Title :
Harmonic and Unbalance Compensation Based on Direct Power Control for Electric Railway Systems
Author :
Bueno, A. ; Aller, J.M. ; Restrepo, J.A. ; Harley, Ronald ; Habetler, Thomas G.
Author_Institution :
Dept. de Conversion y Transporte de Energia, Univ. Simon Bolivar, Caracas, Venezuela
Abstract :
This paper presents a general filtering and unbalance compensation scheme for electric traction systems using a direct power control-based algorithm. For a balanced three-phase three-wire system, the proposed method is able to control the power flow exchange between the grid and the load so that the instantaneous complex power is maintained constant. As a consequence, any nonlinear unbalanced load is seen by the three-phase supply as a balanced linear load. The proposed filter is evaluated on power substations with open delta (V-V) and Scott transformer feeders, and for two-level and dual-converter in the power stage. The scheme has been simulated and experimentally validated. The results from experimental and simulation tests show the controller advantages and the applicability of the proposed method in railway systems.
Keywords :
power control; power convertors; power harmonic filters; power transformers; railway electrification; traction power supplies; Scott transformer feeder; balanced linear load; balanced three-phase three-wire system; direct power control based algorithm; dual converter; electric railway systems; electric traction systems; general filtering; harmonic compensation; nonlinear unbalanced load; open delta transformer feeder; power substations; three-phase supply; unbalance compensation; Harmonic analysis; Power system harmonics; Power transformers; Rails; Reactive power; Vectors; Active filters; harmonics distortion; power control; rail transportation power system;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2013.2253803
