大规模电力电子设备接入的电力系统混合仿真接口技术综述

熊家祚; 张能; 翟党国; 李媛媛; 刘争艳; 魏建新

引用本文:	熊家祚,张能,翟党国,等.大规模电力电子设备接入的电力系统混合仿真接口技术综述[J].电力系统保护与控制,2018,46(10):152-161.[点击复制]
	XIONG Jiazuo,ZHANG Neng,ZHAI Dangguo,et al.Review of hybrid simulation interface technology for power system of large-scale power electronic equipment access[J].Power System Protection and Control,2018,46(10):152-161[点击复制]

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大规模电力电子设备接入的电力系统混合仿真接口技术综述
熊家祚,张能,翟党国,李媛媛,刘争艳,魏建新
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(西安西电电力系统有限公司，陕西西安 710077;武汉大学电气工程学院，湖北武汉 430072)

摘要:

随着电网互联规模的扩大以及大量电力电子设备的接入，为更好地满足对电力电子设备接入后的复杂电力系统仿真分析的需求，采用机电暂态与电磁暂态结合的混合仿真能够很好地解决系统仿真规模、速度和精确性的问题。论述了机电-电磁暂态混合仿真技术的发展历史和现状，对现今国内外采用的混合实时仿真平台进行了归纳总结。在此基础上，就混合仿真接口技术的关键问题从等值形式、数据转换、接口位置选择和交互时序4个方面进行了详细讨论。论述了各个方面的内容、技术难点以及面临的主要问题。最后，提出了混合仿真技术未来可能的发展方向及相关问题。

关键词: 机电暂态电磁暂态混合仿真接口技术等值模型数据转换交互时序

DOI：10.7667/PSPC170678

投稿时间：2017-05-07修订日期：2017-09-12

基金项目:国家自然科学基金项目资助(51307126)

Review of hybrid simulation interface technology for power system of large-scale power electronic equipment access

XIONG Jiazuo,ZHANG Neng,ZHAI Dangguo,LI Yuanyuan,LIU Zhengyan,WEI Jianxin

(Xi’an XD Power Systems Co., Ltd, Xi’an 710077, China;School of Electrical Engineering, Wuhan University, Wuhan 430072, China)

Abstract:

With the expansion of power grid interconnection and the access of a large number of power electronic devices, in order to fulfill the need of analysis requirements of complex power system simulation after power electronic equipment accessing, it’s shown that adopting hybrid simulation of combining electromechanical transient simulator and electromagnetic transient simulator can solve the scale, velocity and calculation precision of system simulation. The developmental history and current situation of electromechanical-electromagnetic transient hybrid simulation are discussed and the existing domestic and foreign hybrid simulation platforms are comprehensively summarized. On this basis, the interfacing technology of hybrid simulation is discussed in four aspects:equivalent model, data conversion, interfacing location selection and interaction sequence. The connotation, technological difficulties and main problems of each aspect are introduced. Finally, this paper proposes the probable development direction and relevant problems of hybrid simulation technology in future. This work is supported by National Natural Science Foundation of China (No. 51307126).

Key words: electromechanical transient electromagnetic transient hybrid simulation interface technology equivalent model data conversion interaction sequence

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