您所在的位置: 首页 >> 期刊 >> 信息工程期刊

信息工程期刊

《信息工程期刊》是一本关注信息工程领域最新进展的开源国际学术期刊。本刊采用开放获取模式,报道信息工程学科领域的最新科研成果,旨在反映学术前沿进展及水平,促进学术交流,为国内外该领域的学者、科研人员提供一个良好的交流平台,以推进信息工程理论、应用和技术的发展。本刊可接收中、英文稿件,但中文稿件要有详细的英文标题、作者、单位、摘要和关键词。初次投稿请按照稿件模板排版后在线投稿。录用稿件首先刊发在期刊网站上,然后由Ivy Publisher出版公司高质量…… 【更多】 《信息工程期刊》是一本关注信息工程领域最新进展的开源国际学术期刊。本刊采用开放获取模式,报道信息工程学科领域的最新科研成果,旨在反映学术前沿进展及水平,促进学术交流,为国内外该领域的学者、科研人员提供一个良好的交流平台,以推进信息工程理论、应用和技术的发展。

本刊可接收中、英文稿件,但中文稿件要有详细的英文标题、作者、单位、摘要和关键词。初次投稿请按照稿件模板排版后在线投稿。录用稿件首先刊发在期刊网站上,然后由Ivy Publisher出版公司高质量出版,面向全球公开发行。因此,要求所有来稿均不涉密,文责自负。

ISSN Print:2167-0218

ISSN Online:2167-0226

Email:sjie@ivypub.org

Website: http://www.ivypub.org/sjie/

  0
  0

Paper Infomation

Key Technologies and Applications of Power Electronics in Smart Grids

Full Text(PDF, 61KB)

Author: Rui Luo

Abstract: Power electronics technology plays a pivotal role in the advancement and modernization of smart grids by enabling efficient energy conversion, management, and control. This paper presents a comprehensive overview of key technologies underpinning power electronics systems, with particular emphasis on wide-bandgap (WBG) semiconductor devices such as silicon carbide (SiC) and gallium nitride (GaN). These devices offer superior electrical and thermal properties that overcome the limitations of traditional silicon-based components, facilitating higher efficiency, power density, and operational reliability. The paper further explores advanced power conversion topologies, high-performance drive and control strategies, and electromagnetic compatibility techniques critical to optimizing system performance. Core applications in renewable energy integration, energy storage management, intelligent transmission and distribution, microgrids, and electric vehicle infrastructure are discussed. Additionally, multi-level control architectures, adaptive predictive control methods, and communication technologies that enhance system stability and security are examined. Finally, challenges related to reliability, large-scale coordination, emerging technology integration, and sustainable development are analyzed to identify future research directions. This work contributes to the ongoing evolution of power electronics as a fundamental enabler of resilient, efficient, and sustainable smart grids.

Keywords: Power Electronics; Wide-Bandgap Semiconductors; Smart Grids; Renewable Energy Integration; Energy Storage; Control Strategies; Electromagnetic Compatibility

References:

[1] Zhang J, Yuan L, Liu Y, et al. Editorial: Electromagnetic compatibility design and power electronics technologies in modern power systems[J]. Frontiers in Electronics,2024,5

[2] Teixeira E M J S, Gomes C L F. Power Electronics for Modern Sustainable Power Systems: Distributed Generation, Microgrids and Smart Grids—A Review[J]. Sustainability,2022,14(6):3597-3597.

[3] Monteiro V, Afonso L J. The Future of Electrical Power Grids: A Direction Rooted in Power Electronics[J]. Energies,2023,16(13):

[4] Kazmierkowski P M. Power Electronics in Renewable Energy Systems and Smart Grid: Technology and Applications[J]. IEEE Power Electronics Magazine,2020,7(2):94-94.

[5] Luis J G D. Digital Grids beyond Smart Grids challenges to make future electric grids stable and resilient[J]. Europhysics News,2021,52(5):36-39.

[6] Chang Q Z. Power Electronics‐Enabled Autonomous Power Systems: Next Generation Smart Grids[M]. John Wiley & Sons, Ltd:2020-04-27. DOI:10.1002/9781118803516.

[7] Mansour A D, Numair M, Zalhaf S A, et al. Applications of IoT and digital twin in electrical power systems: A comprehensive survey[J]. IET Generation, Transmission & Distribution,2023,17(20):4457-4479.

[8] Vitor M, S. J M, Carlos J F A, et al. Review of a Disruptive Vision of Future Power Grids: A New Path Based on Hybrid AC/DC Grids and Solid-State Transformers[J]. Sustainability,2021,13(16):9423-9423.

Privacy Policy | Copyright © 2011-2025 Ivy Publisher. All Rights Reserved.

Contact: customer@ivypub.org