Analysis of AC Oscillations in a DC Smart Grid

Analysis of AC Oscillations in a DC Smart Grid

At first glance, when tasked with designing a measurement system for a DC electrical network, engineers often underestimate the complexity of the operation. It may be considered a simple task of monitoring constant electrical quantities, which are therefore easily estimable. The common bias is to co...

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Bibliographic Details
Published in:2024 IEEE 14th International Workshop on Applied Measurements for Power Systems (AMPS) pp. 1 - 6
Main Authors: Signorino, Davide, Femine, Antonio Delle, Gallo, Daniele, Armando, Eric Giacomo, Melero Estela, Julio J., Perez-Aragues, Juan J., Giordano, Domenico
Format: Conference Proceeding
Language:English
Published: IEEE 18-09-2024
Subjects:
Current measurement
DC Grid
Energy measurement
Inverter
Microgrids
Power measurement
Power Quality
Power system reliability
Power Systems
Power Theory
Reliability theory
Renewable energy
Smart grids
Systems operation
Transmission line measurements
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Summary:At first glance, when tasked with designing a measurement system for a DC electrical network, engineers often underestimate the complexity of the operation. It may be considered a simple task of monitoring constant electrical quantities, which are therefore easily estimable. The common bias is to consider that in a DC microgrid, both the voltage applied and the current absorbed are continuous quantities. At most, these might experience slow variations or step changes corresponding to load insertions. A deeper analysis should also consider the ripple, which is always present on both voltage and current. However, it's worthwhile noting that the ripple is usually characterized by a small amplitude compared to the DC quantity. This article emphasizes that reality quite differs from common assumptions. The measurement campaign provides data from an actual DC microgrid, revealing that AC current components of relevant amplitude can circulate within a DC network even during normal system operations. These findings challenge traditional expectations and offer valuable insights for grid designers. By understanding the behavior of these AC components, designers can enhance the reliability and efficiency of DC microgrids, ultimately leading to more robust and resilient power systems.
ISSN:2475-2304
DOI:10.1109/AMPS62611.2024.10706670