Juan S. Gomez scite author profile

Progress in Microgrid (MG) research has evolved the MG concept from classical, purely MG power networks to more advanced power and communications networks. The communications infrastructure helps control and manage the unreliable power outputs that most standard power generation elements of the MG (e.g., wind turbines and photo-voltaic panels) deliver. Although communication technologies do offer certain advantages for sensing and control, they generate other complications due to packet loss and packet latency, among other transmission impairments. In this work, we discuss the impact of communications on MG performance, establishing the requirements of data exchanges and system response in the three levels of a hierarchical control approach: primary, secondary, and tertiary. With a focus on the secondary level-responsible for ensuring the restoration of electrical parameters-we identify standards, networking protocols, and communication technologies relevant for the interoperability of MGs and clusters of MGs, including both modes of operation: isolated and grid-connected. We review theoretical approaches and practical implementations that consider the effects of the communications network on the general performance of the MG. Moreover, we undertake an experimental analysis of the influence of wired and wireless communication networks on MG performance, revealing the importance of designing future smart control solutions more robust to communication degradation, especially if wireless technologies are integrated to provide scalable deployments. Aspects such as resilience, security, and interoperability are also shown to require continuing efforts in research and practical applications.

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Distributed Predictive Control Strategy for Frequency Restoration of Microgrids Considering Optimal Dispatch

Navas

Gomez

Llanos

et al. 2021

IEEE Trans. Smart Grid

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Microgrids are the cornerstone for a new model of electrical generation based on renewable resources. Commonly microgrids are controlled with a centralised hierarchical structure, which is inherited from power systems. However, a timescale separation between traditional fast frequency restoration and slow economic dispatch may be counterproductive in the long run because the slow long-term economic dispatch increases the prediction uncertainty. In an effort to improve the economical operation of microgrids, this work proposes a distributed model predictive control strategy for the operation of isolated microgrids based on a consensus strategy that tackles both the economic dispatch and frequency restoration over the same timescale. The proposed controller can operate without knowledge of the microgrid's topology: instead, typical local measurements and other information from neighbouring generation units are required. Experimental results demonstrate that the controller is robust to load variations and communication issues, but the plug-and-play nature of the system is preserved.

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Economic Dispatch by Secondary Distributed Control in Microgrids

Llanos

Gomez

Sáez

et al. 2019

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Distributed Predictive Secondary Control for Imbalance Sharing in AC Microgrids

Navas-Fonseca

Burgos-Mellado

Gomez

et al. 2022

IEEE Trans. Smart Grid

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Juan S. Gomez

Distributed Predictive Control for Frequency and Voltage Regulation in Microgrids

Communication Requirements in Microgrids: A Practical Survey

Distributed Predictive Control Strategy for Frequency Restoration of Microgrids Considering Optimal Dispatch

Economic Dispatch by Secondary Distributed Control in Microgrids

Distributed Predictive Secondary Control for Imbalance Sharing in AC Microgrids

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