A Double-Resistive Active Power Filter System to Attenuate Harmonic Voltages of a Radial Power Distribution Feeder

PROJECT TITLE :

A Double-Resistive Active Power Filter System to Attenuate Harmonic Voltages of a Radial Power Distribution Feeder

ABSTRACT:

Harmonic propagation between power-issue correction capacitors and system inductors seriously deteriorates power quality in a very radial power distribution feeder. Installation of a resistive active power filter (RAPF) at the tip bus solely suppresses harmonic propagation, not attenuates harmonic voltages. This paper proposes a double-resistive active power filter (D-RAPF) system consisting of a terminal-RAPF and an attenuation-RAPF for each individual harmonic. The terminal-RAPF operating because the characteristic impedance of the feeder is put in at the tip bus to suppress harmonic propagation in any respect harmonic frequencies. The attenuation-RAPF, whose control gain can be set in keeping with the necessities of the harmonic voltage distortion limit, is installed at a particular position for each individual harmonic to attenuate the corresponding harmonic voltages. The D-RAPF system not only suppresses harmonic propagation and attenuates harmonic voltages a lot of effectively, however also has the identical rated power capacity because the RAPF. But, each the harmonic damping performance and therefore the rated power capacity must be thought-about to choose the D-RAPF system or the RAPF when a harmonic current supply exists at a footing between the attenuation-RAPF and the terminal-RAPF. Simulation and experiment results verify the theoretical analysis and demonstrate the effectiveness of the D-RAPF system.

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