Power Quality Control Of Smart Hybrid Ac/dc Microgrids: An Overview

Power Quality Control of Smart Hybrid AC/DC Micro-grids: An Overview

Abstract:

In this paper, an overview of the power quality control of smart hybrid AC/DC micro-grids is presented. Different types of power quality issues are studied first, with consideration of real-world hybrid micro-grid examples, including data centers, electric railway systems, and electric vehicles charging stations. It shows that compared to traditional centralized power quality compensations, smart interfacing power converters from distributed generations, energy storages, and loads, and the AC and DC sub-grids interfacing converters are promising candidates for power quality control. To realize the smart interfacing converters' power quality control, both primary converters control and secondary system coordination are required. In this paper, a thorough review of the primary control of interfacing converters to integrate the power quality compensation are presented, with a focus on the hybrid AC/DC micro-grid harmonics compensation and unbalance compensation. For multiple interfacing converters, the secondary control with system-level coordination and optimization for harmonics and unbalance compensation (considering both unbalance and harmonics in single-phase and three-phase systems) are also presented.