Renewable energy sources are increasingly integrated into modern power grids to meet the rising electricity demand. This energy transition will lead to power systems characterized by the massive presence of power electronics converters. As a consequence, the electromagnetic environment of modern power systems is becoming increasingly complex, and new challenges need to be addressed. Among them, assuring power quality and electromagnetic compatibility (EMC) performance plays a key role in ensuring the functionality, safety, and reliability of the power grid. Clearly, a Research Topic on power quality and EMC represent increasing importance for this industry sector. This Research Topic will promote the research on advanced design, modeling, analysis, operation, and control technologies of power electronic systems and contribute to the sustainable development of power systems.
This Research Topic aims to bring together contributions from academia and industry to discuss and highlight power quality and EMC performance of renewable energy systems. The final goal is to satisfy the normative standards for power electronics devices in the smart grid context and achieve enhanced system performance in terms of stability, reliability, and safety. The Research Topic on power quality and EMC relates to multiple disciplines, such as energy engineering, power systems engineering, circuit theory, electromagnetism, computer and control science, electronics and design, thermal and control engineering. It can provide a platform to facilitate interdisciplinary studies and share the most recent ideas in the related fields.
The topics of interest include, but are not limited to:
(1) Power quality in renewable energy systems
(2) Low-frequency EMC and coexistence issues in the smart grid
(3) EMC modeling and analysis of power electronics devices and systems
(4) EMC- and power quality-oriented control techniques for power electronics converters
(5) Radiated and conducted emissions
(6) Passive and active EMI filters
(7) High-frequency transient and lightning strikes in renewable energy systems
Renewable energy sources are increasingly integrated into modern power grids to meet the rising electricity demand. This energy transition will lead to power systems characterized by the massive presence of power electronics converters. As a consequence, the electromagnetic environment of modern power systems is becoming increasingly complex, and new challenges need to be addressed. Among them, assuring power quality and electromagnetic compatibility (EMC) performance plays a key role in ensuring the functionality, safety, and reliability of the power grid. Clearly, a Research Topic on power quality and EMC represent increasing importance for this industry sector. This Research Topic will promote the research on advanced design, modeling, analysis, operation, and control technologies of power electronic systems and contribute to the sustainable development of power systems.
This Research Topic aims to bring together contributions from academia and industry to discuss and highlight power quality and EMC performance of renewable energy systems. The final goal is to satisfy the normative standards for power electronics devices in the smart grid context and achieve enhanced system performance in terms of stability, reliability, and safety. The Research Topic on power quality and EMC relates to multiple disciplines, such as energy engineering, power systems engineering, circuit theory, electromagnetism, computer and control science, electronics and design, thermal and control engineering. It can provide a platform to facilitate interdisciplinary studies and share the most recent ideas in the related fields.
The topics of interest include, but are not limited to:
(1) Power quality in renewable energy systems
(2) Low-frequency EMC and coexistence issues in the smart grid
(3) EMC modeling and analysis of power electronics devices and systems
(4) EMC- and power quality-oriented control techniques for power electronics converters
(5) Radiated and conducted emissions
(6) Passive and active EMI filters
(7) High-frequency transient and lightning strikes in renewable energy systems