Ádám Máté scite author profile

Fundamental shifts in the structure and generation profile of electrical grids are occurring amidst increased demand for resilience. These two simultaneous trends create the need for new planning and operational practices for modern grids that account for the compounding uncertainties inherent in both resilience assessment and increasing contribution of variable inverter-based renewable energy sources. This work reviews the research work addressing the changing generation profile, state-of-the-art practices to address resilience, and research works at the intersection of these two topics in regards to electrical grids. The contribution of this work is to highlight the ongoing research in power system resilience and integration of variable inverter-based renewable energy sources in electrical grids, and to identify areas of current and further study at this intersection. Areas of research identified at this intersection include cyber-physical analysis of solar, wind, and distributed energy resources, microgrids, network evolution and observability, substation automation and self-healing, and probabilistic planning and operation methods.

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Rapid Method for Generation Prioritization during System Restoration with Renewable Resources

Máté

Cotilla‐Sanchez

2019

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The Risk of Hidden Failures to the United States Electrical Grid and Potential for Mitigation

Barnes¹,

Máté²,

Tabarez

2021

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Implementing Admittance Relaying for Microgrid Protection

Barnes

Máté

2021

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The rapid increase of distributed energy resources has led to the widespread deployment of microgrids. These flexible and efficient local energy grids are able to operate in both grid-connected mode and islanded mode; they are interfaced to the main power system by a fast semiconductor switch and commonly make use of inverter-interfaced generation. This paper focuses on inverter interfaced microgrids, which present a challenge for protection as they do not provide the high shortcircuit current necessary for conventional time-overcurrent protection. The application of admittance relaying for the protection of inverter-interfaced microgrids is investigated as a potential solution. The comparison of analytical and simulated results of performed four experiments prove the suitability of admittance relaying for microgrids protection.

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Relaxation Based Modeling of GMD Induced Cascading Failures in PowerModelsGMD.jl

Máté

Barnes

Morley

et al. 2021

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Ádám Máté

Resilience in an Evolving Electrical Grid

Rapid Method for Generation Prioritization during System Restoration with Renewable Resources

The Risk of Hidden Failures to the United States Electrical Grid and Potential for Mitigation

Implementing Admittance Relaying for Microgrid Protection

Relaxation Based Modeling of GMD Induced Cascading Failures in PowerModelsGMD.jl

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