Harmonic Mitigation and Energy Savings in 13.2 kV Distribution Feeders via P–Q-Based Shunt Active Filters and Luminaire Retrofit

Brandon Condemaita; Milton Ruiz

doi:10.3390/en18215582

Harmonic Mitigation and Energy Savings in 13.2 kV Distribution Feeders via P–Q-Based Shunt Active Filters and Luminaire Retrofit

Brandon Condemaita
, Milton Ruiz

Grupo de Investigación en Redes Eléctricas Inteligentes (GIREI)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

1 Cita (Scopus)

Resumen

This article designs and validates a P-Q-based shunt active power filter (SAPF) to mitigate voltage harmonics in EERSA’s 13.2 kV feeder 1500080T03. A CYMDIST feeder model, calibrated with field measurements, reveals worst-case voltage THD up to 9.48% due to legacy high-pressure sodium (HPS) street lighting. Co-simulation with a MATLAB/Simulink R2024b, controller guides the sizing of a 150 kVA SAPF at Substation 8. Simulations reduce peak THD at a representative node from 9.48% to 1.51%; replacing HPS with LEDs further improves efficiency while lowering distortion. The retrofit complies with IEEE Std 519-2022, enhances supply reliability, and yields an internal rate of return above 17%, indicating a technically and financially attractive solution for Latin American distribution networks.

Idioma original	Inglés
Número de artículo	5582
Publicación	Energies
Volumen	18
N.º	21
DOI	https://doi.org/10.3390/en18215582
Estado	Publicada - nov. 2025

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Publisher Copyright:
© 2025 by the authors.

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

ODS 7: Energía asequible y no contaminante

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title = "Harmonic Mitigation and Energy Savings in 13.2 kV Distribution Feeders via P–Q-Based Shunt Active Filters and Luminaire Retrofit",

abstract = "This article designs and validates a P-Q-based shunt active power filter (SAPF) to mitigate voltage harmonics in EERSA{\textquoteright}s 13.2 kV feeder 1500080T03. A CYMDIST feeder model, calibrated with field measurements, reveals worst-case voltage THD up to 9.48\% due to legacy high-pressure sodium (HPS) street lighting. Co-simulation with a MATLAB/Simulink R2024b, controller guides the sizing of a 150 kVA SAPF at Substation 8. Simulations reduce peak THD at a representative node from 9.48\% to 1.51\%; replacing HPS with LEDs further improves efficiency while lowering distortion. The retrofit complies with IEEE Std 519-2022, enhances supply reliability, and yields an internal rate of return above 17\%, indicating a technically and financially attractive solution for Latin American distribution networks.",

keywords = "LED street lighting, power quality, P–Q theory, shunt active power filter, total harmonic distortion",

author = "Brandon Condemaita and Milton Ruiz",

note = "Publisher Copyright: {\textcopyright} 2025 by the authors.",

year = "2025",

month = nov,

doi = "10.3390/en18215582",

language = "English",

volume = "18",

journal = "Energies",

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T1 - Harmonic Mitigation and Energy Savings in 13.2 kV Distribution Feeders via P–Q-Based Shunt Active Filters and Luminaire Retrofit

AU - Condemaita, Brandon

AU - Ruiz, Milton

PY - 2025/11

Y1 - 2025/11

N2 - This article designs and validates a P-Q-based shunt active power filter (SAPF) to mitigate voltage harmonics in EERSA’s 13.2 kV feeder 1500080T03. A CYMDIST feeder model, calibrated with field measurements, reveals worst-case voltage THD up to 9.48% due to legacy high-pressure sodium (HPS) street lighting. Co-simulation with a MATLAB/Simulink R2024b, controller guides the sizing of a 150 kVA SAPF at Substation 8. Simulations reduce peak THD at a representative node from 9.48% to 1.51%; replacing HPS with LEDs further improves efficiency while lowering distortion. The retrofit complies with IEEE Std 519-2022, enhances supply reliability, and yields an internal rate of return above 17%, indicating a technically and financially attractive solution for Latin American distribution networks.

AB - This article designs and validates a P-Q-based shunt active power filter (SAPF) to mitigate voltage harmonics in EERSA’s 13.2 kV feeder 1500080T03. A CYMDIST feeder model, calibrated with field measurements, reveals worst-case voltage THD up to 9.48% due to legacy high-pressure sodium (HPS) street lighting. Co-simulation with a MATLAB/Simulink R2024b, controller guides the sizing of a 150 kVA SAPF at Substation 8. Simulations reduce peak THD at a representative node from 9.48% to 1.51%; replacing HPS with LEDs further improves efficiency while lowering distortion. The retrofit complies with IEEE Std 519-2022, enhances supply reliability, and yields an internal rate of return above 17%, indicating a technically and financially attractive solution for Latin American distribution networks.

KW - LED street lighting

KW - power quality

KW - P–Q theory

KW - shunt active power filter

KW - total harmonic distortion

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JO - Energies

JF - Energies

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ER -

Harmonic Mitigation and Energy Savings in 13.2 kV Distribution Feeders via P–Q-Based Shunt Active Filters and Luminaire Retrofit

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