Abstract
In the electric power distribution system, power electronics technologies associated with renewable energy systems (RES) and smart grids have gained growing interest. The power electronics devices are used to convert, control, or transfer electric power from RES to the power grids. However, the continuous increase in switching frequencies resulting from these power electronics technologies has led to the emergence of new emissions in the range of 2-150 kHz, outside the classical frequency range for power quality. These emissions are known worldwide as supraharmonics (SH). These emissions negatively affect the power quality of electrical distribution systems and reduce their efficiency and lifetime. Thus, the supraharmonics emissions have been investigated in the literature, and several methods were developed focusing on identifying, measuring, and setting new standards to mitigate the impact of these emissions on the power quality. Although these individual studies have been well documented, a comparative overview of its identifications, current standards, and measurement techniques had not been described so far. Therefore, this study extensively reviews the related techniques and standards for identifying, measuring, and mitigating SH emissions. Moreover, the current research gap in this important field is highlighted, and an illustration on how this problem was tackled in the past few years is presented. Additionally, the SH characteristics alongside insights into the mitigations and measurements are highlighted and analyzed accordingly. Finally, some important recommendations to mitigate SH emissions are suggested. This review will hopefully strengthen the efforts toward the development of SH domain by providing the necessary groundwork for further mitigations, standards, and measuring techniques improvement.
Highlights
A combination of three-phase rectifier with a harmonic rectifiers can be in compliance with relief function is proposed standard IEC 61000-3-12 initiated using an electronic for low-order harmonic emission inductor
The power-electronic converters, which are considered as the key technologies of renewable energy systems (RES), EVs, and smart meters, are generated harmonic distortions that cerate critical issues when integrating them in the electrical grid
Using PWM signals with high switching frequencies in power-electronic converters, the desired output currents and voltages are obtained by mitigating these discrete low-order harmonics
Summary
Different researches have been conducted in recent years to identify, measure, and mitigate this new high-frequency phenomenon to ensure the grid feeding with a pure wave of current and voltage [2]. No comprehensive study has been conducted to review the SH emissions in power grids associated with identification, standards, and measuring techniques. With more power electronics-based devices, especially with renewable energy (RE) sources, there is a huge concern on the high-frequency noise that is beyond 2 kHz, namely, SH In this context, the expression of SH is being used to indicate any kind of voltage and current waveform distortion within the range of. Power-electronic interfaced converters in modern smart grids and MGs generate harmonic distortions of higher order due to its high-frequency operation [19,20,21]. It is worth mentioning that V2 plays a more significant role in SH than normal harmonics (low frequency) [19]
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