Daniel Olivares scite author profile

Artículo de publicación ISIThe increasing interest in integrating intermittent renewable energy sources into microgrids presents major challenges from the viewpoints of reliable operation and control. In this paper, the major issues and challenges in microgrid control are discussed, and a review of state-of-the-art control strategies and trends is presented; a general overview of the main control principles (e.g., droop control, model predictive control, multi-agent systems) is also included. The paper classifies microgrid control strategies into three levels: primary, secondary, and tertiary, where primary and secondary levels are associated with the operation of the microgrid itself, and tertiary level pertains to the coordinated operation of the microgrid and the host grid. Each control level is discussed in detail in view of the relevant existing technical literature

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A Centralized Energy Management System for Isolated Microgrids

Olivares

Cañizares

Kazerani

2014

IEEE Trans. Smart Grid

561

256

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Fuzzy Prediction Interval Models for Forecasting Renewable Resources and Loads in Microgrids

Sáez

Ávila

Olivares

et al. 2015

IEEE Trans. Smart Grid

178

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Distributed Control Strategy Based on a Consensus Algorithm and on the Conservative Power Theory for Imbalance and Harmonic Sharing in 4-Wire Microgrids

Burgos-Mellado

Llanos

Cárdenas

et al. 2020

IEEE Trans. Smart Grid

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A distributed control system is proposed which uses the Conservative Power Theory (CPT) and a consensus algorithm to share imbalance and harmonics between different converters in three-phase four-wire droop-controlled Microgrids (MGs). The CPT is used to identify the balanced, unbalanced and distorted components of the currents and powers in the system. Control loops based on virtual impedance and implemented in the stationary a-b-c frame are then used to distribute these components between the various converters in the MG. The magnitudes of the virtual impedances are adaptively calculated using a novel consensus-based distributed control scheme with the aim of sharing imbalances and harmonics according to the residual VA capacity of each converter whilst regulating the imbalance and distortion at their output to meet the appropriate IEEE power quality standards. Extensive simulations show that the proposed distributed control has excellent performance, and experimental validation is provided using a laboratory-scale 4wire MG.

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A centralized optimal energy management system for microgrids

2011

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Daniel Olivares

Trends in Microgrid Control

A Centralized Energy Management System for Isolated Microgrids

Fuzzy Prediction Interval Models for Forecasting Renewable Resources and Loads in Microgrids

Distributed Control Strategy Based on a Consensus Algorithm and on the Conservative Power Theory for Imbalance and Harmonic Sharing in 4-Wire Microgrids

A centralized optimal energy management system for microgrids

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