![]() ![]() ![]() The Publication Fees/Article Processing Charges (APCs) for the accepted papers will be completely subsidized by the CAS Society. Innovative education and training activities for promoting emerging power electronics technologies and developing a pipeline of future power electronics engineers.New business models and economic analysis of power-electronics-enabled distribution networks.Testbed, proof-of-concept demonstrations, pilot projects, and real-world implementation.Reliability, resilience, and stability study of power electronic converters for smart grid applications.Novel power electronics applications to support high penetration of distributed renewable resources.Modeling, simulation, analysis, and experiment of power electronics components for smart grid applications.Grid integration of grid-forming converters/inverters for smart grid applications.Submissions from industry are highly encouraged. Hence, interdisciplinary research and real-world-problem-driven research topics are of particular interest of this SS. It is worth noting that this SS places an emphasis on addressing the mutual research interests of academics and industry. The SS solicits original research papers that target at, but are not restricted to, the following topics. The proposed Special Section (SS) invites a broad spectrum of contributors (e.g., academics, researchers, engineers, consultants, market regulators and system operators, key policymakers) to define and develop the interdisciplinary technical approaches collectively. There is a growing interest in the concepts of power electronics-enabled power systems around the world. While tremendous progress has been made in advancing the standalone power electronics technologies, much less attention has been paid to bridging the gap between traditionally disjoint research areas – power electronics, power systems, and intelligent control – ultimately facilitating the vision of 100% carbon-neutral energy systems come to fruition. The combination of power electronics and advanced control technologies serve as the key enabler of a wide range of smart grid applications. In an emerging smart grid, as the number of inverter- and converter-based devices increases to more than hundreds of thousands, it is rather intuitive that the state-of-the-art technical solutions and industry practices will no longer be sustainable. The advent of modern power electronics has brought tremendous impact on emerging power systems. ![]() The submission deadline for the OJCAS Special Section on Advanced Power Electronics Techniques for Smart Grid Applications submission deadline has been extended to 3 August 2022. ![]()
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