微电网
相量
计算机科学
背景(考古学)
电力系统
网格
理论(学习稳定性)
智能电网
瞬态(计算机编程)
工程类
控制工程
可靠性工程
功率(物理)
可再生能源
电气工程
古生物学
物理
几何学
数学
量子力学
机器学习
生物
操作系统
作者
Danny Espín-Sarzosa,Rodrigo Palma‐Behnke,Claudio A. Cañizares,U.D. Annakkage,Marcelo Elizondo,Enrique Espina,Wei Du,Mahmoud Kabalan,Lasantha Meegahapola,Patricio Mendoza‐Araya,Ehsan Nasr‐Azadani,Ahda P. Grilo,Rodrigo A. Ramos,Michael Ropp,Kevin P. Schneider,John W. Simpson-Porco,Kai Strunz,Glauco N. Taranto,Francis Tuffner,James Reilly
标识
DOI:10.1109/tsg.2023.3326063
摘要
Here this document is a summary of a report prepared by the IEEE PES Task Force (TF) on Microgrid (MG) Dynamic Modeling, IEEE Power and Energy Society, Tech. Rep. PES-TR106, 2023. In this paper, the major issues and challenges in microgrid modeling for stability analysis are discussed, and a review of state-of-the-art modeling approaches and trends is presented. In the context of the IEEE 1547 standard, the document covers issues associated with component models for MG dynamic studies and simulations, including generator and grid modeling, full and average converter models, unbalanced and balanced system conditions, dynamic and static loads, protection requirements, and detailed and simplified controls considering communications delays, packet losses, and security issues. Considering the future integration of grids and MGs to form broad integrated networks, a discussion is presented of the use of phasor vis-à-vis electromagnetic transient simulation tools for MG dynamic stability studies, as well as modeling scale-up issues and MG equivalent models. Specifically white-, grey-, and black-box models, are presented. This TF paper and companion report constitute a modeling guide for R&D groups working on developments and standards of MGs with a focus on stability issues.
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