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Letter | Open Access

Resilience-assuring hydrogen-powered microgrids

Chaofan Lin^¹, Peng Zhang^¹(

), Yacov A. Shamash^¹, Zongli Lin^², Xiaonan Lu^³

1Department of Electrical and Computer Engineering, Stony Brook University, Stony Brook, NY 11794, USA

2Department of Electrical and Computer Engineering, University of Virginia, Charlottesville, VA 22904, USA

3School of Engineering Technology, Purdue University, West Lafayette, IN 47906, USA

Show Author Information

Abstract

Green hydrogen has shown great potential to power microgrids as a primary source, whereas the resilient operation methodology under extreme events remains an open area. To fill this gap, this letter establishes an operational optimization strategy towards resilient hydrogen-powered microgrids. The frequency and voltage regulation characteristics of primary hydrogen sources under droop control and their electrical-chemical conversion process with nonlinear stack efficiency are accurately modeled by piecewise linear constraints. A resilience-oriented multi-time-slot stochastic optimization model is then formulated for an economic and robust operation under changing uncertainties. Test results show that the new formulation can leverage the primary hydrogen sources to achieve a resilience and safety-assured operation plan, supplying maximum critical loads while significantly reducing the frequency and voltage variations.

Keywords

optimization control hydrogen resilience Microgrid operation

References

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iEnergy

Volume 3 Issue 2,
June 2024

Pages 84-88

DOI: 10.23919/IEN.2024.0015

Cite this article:

Lin C, Zhang P, Shamash YA, et al. Resilience-assuring hydrogen-powered microgrids. iEnergy, 2024, 3(2): 84-88. https://doi.org/10.23919/IEN.2024.0015

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Received: 11 June 2024

Revised: 26 June 2024

Accepted: 28 June 2024

Published: 24 July 2024

This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).