Author
Listed:
- Jorge Muñoz-Pilco
(Smart Electric Grids Research Group GIREI (Spanish Acronym), Salesian Polytechnic University, Quito 170702, Ecuador)
- Nelson Calvachi
(Smart Electric Grids Research Group GIREI (Spanish Acronym), Salesian Polytechnic University, Quito 170702, Ecuador)
- Luis Tipán
(Smart Electric Grids Research Group GIREI (Spanish Acronym), Salesian Polytechnic University, Quito 170702, Ecuador)
- Carlos Barrera-Singaña
(Smart Electric Grids Research Group GIREI (Spanish Acronym), Salesian Polytechnic University, Quito 170702, Ecuador)
- David Muñoz
(Master’s Program in Business Administration, International University of La Rioja, 26006 Logrono, Spain)
- Juan D. Ramirez
(Departamento de Energía Eléctrica, Facultad de Ingeniería Eléctrica y Electrónica, Escuela Politécnica Nacional, Quito 170525, Ecuador)
Abstract
The energy transition and electrification are increasing the use of power electronics in low-voltage networks, increasing losses and reducing service availability when harmonic currents are concentrated in the neutral. This study statistically evaluates power quality in a campus-type microgrid with a high proportion of nonlinear loads. The novelty of the work lies in combining field measurements, percentile-based neutral-current severity analysis, and standards-based comparative mitigation assessment in a low-voltage 3P4W campus microgrid. A campaign was carried out using a Fluke 1775 analyzer, recording trends, frequency, and events. Approximately 1900 events were recorded, mainly waveform deviations, interruptions, and rapid voltage changes. Voltage distortion was moderate, with a 95th percentile between 3.6% and 3.8%, while the neutral conductor concentrated the highest severity: neutral-current THD exceeded 220% in the 95th percentile and reached maximums above 700%, with 16.78 A in the 95th percentile at the measurement point. Based on IEC 61000-2-2 and IEEE 519, four mitigation measures were evaluated in DIgSILENT PowerFactory 2024 to estimate and reduce losses and heating: load balancing, detuned compensation, passive filtering, and active filtering. Active mitigation reduced the neutral harmonic component by 80% and the combined strategy decreased the neutral current at the measuring point by 78% (16.78 A to 3.69 A), with an estimated reduction in resistive losses of close to 95%. These results suggest sustainability benefits by reducing energy wasted as heat, extending the useful life of the infrastructure and improving operational resilience.
Suggested Citation
Jorge Muñoz-Pilco & Nelson Calvachi & Luis Tipán & Carlos Barrera-Singaña & David Muñoz & Juan D. Ramirez, 2026.
"Neutral Harmonics in a Low-Voltage Campus Microgrid: Long-Term Power Quality Statistics and Standards-Based Mitigation to Reduce Losses and Improve Resilience,"
Sustainability, MDPI, vol. 18(7), pages 1-25, March.
Handle:
RePEc:gam:jsusta:v:18:y:2026:i:7:p:3201-:d:1902678
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