This paper presents a study on the use of power factor indicators for the assessment of harmonic distortion sources in power systems. In detail the analysis is focused on the comparison between the proposed nonactive power factor (Q1/N) and the indicators of the IEEE Std. 1459-2010, and on the indicators feasibility in identifying the presence of harmonic distortion sources. As discussed in the paper, the proposed indicator can be evaluated with good accuracy, by means of typical power quantities measurements at the point of common coupling (PCC). Thus its measurement can be feasibly implemented in commercial platforms used for smart metering applications. To verify the proposal validity, some simulations were carried out on a benchmark test system recently proposed in literature, where the impact of capacitor banks for reactive power compensation is taken into account.
Artale G., Caravello G., Cataliotti A., Cosentino V., Di Cara D., Ditta V., et al. (2022). A single-point approach based on nonactive power factor for the assessment of harmonic distortion sources in power systems. In Conference Record - IEEE Instrumentation and Measurement Technology Conference (pp. 1-6). 345 E 47TH ST, NEW YORK, NY 10017 USA : Institute of Electrical and Electronics Engineers Inc. [10.1109/I2MTC48687.2022.9806599].
A single-point approach based on nonactive power factor for the assessment of harmonic distortion sources in power systems
Artale G.;Caravello G.;Cataliotti A.;Cosentino V.;Ditta V.;Panzavecchia N.;
2022-05-01
Abstract
This paper presents a study on the use of power factor indicators for the assessment of harmonic distortion sources in power systems. In detail the analysis is focused on the comparison between the proposed nonactive power factor (Q1/N) and the indicators of the IEEE Std. 1459-2010, and on the indicators feasibility in identifying the presence of harmonic distortion sources. As discussed in the paper, the proposed indicator can be evaluated with good accuracy, by means of typical power quantities measurements at the point of common coupling (PCC). Thus its measurement can be feasibly implemented in commercial platforms used for smart metering applications. To verify the proposal validity, some simulations were carried out on a benchmark test system recently proposed in literature, where the impact of capacitor banks for reactive power compensation is taken into account.
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