Multi Step Transient Hybrid Simulation Framework Design and Practical Engineering Application for AC / DC Power Grid

Multi Step Transient Hybrid Simulation Framework Design and Practical Engineering Application for AC / DC Power Grid

Based on the large power grid simulation and the existing security prevention and control mode, this paper further integrates the multi-step transient hybrid simulation architecture computing technology to research the high-performance analysis and situational awareness simulation technology of inte...

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Main Authors: Weijie Zheng, Dechao Xu, Yong Chen, Xing Zhang, Qing Mu
Format: Article
Language:English
Published: EDP Sciences 2021-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/32/e3sconf_posei2021_01010.pdf
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spelling doaj-c8ac6def0a494cc89d624d09363749d02021-05-28T12:41:51ZengEDP SciencesE3S Web of Conferences2267-12422021-01-012560101010.1051/e3sconf/202125601010e3sconf_posei2021_01010Multi Step Transient Hybrid Simulation Framework Design and Practical Engineering Application for AC / DC Power GridWeijie Zheng0Dechao Xu1Yong Chen2Xing Zhang3Qing Mu4CEPRICEPRICEPRICEPRICEPRIBased on the large power grid simulation and the existing security prevention and control mode, this paper further integrates the multi-step transient hybrid simulation architecture computing technology to research the high-performance analysis and situational awareness simulation technology of interconnected AC / DC large power grid security and stability characteristics. So as to realize the “panoramic situational awareness, wide area coordinated control, flexible and efficient service” of large power grid, and improve the super large scale power grid Comprehensive security defense and intelligent monitoring level of panoramic, multi-dimensional and three-dimensional.https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/32/e3sconf_posei2021_01010.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Weijie Zheng
Dechao Xu
Yong Chen
Xing Zhang
Qing Mu
spellingShingle Weijie Zheng
Dechao Xu
Yong Chen
Xing Zhang
Qing Mu
Multi Step Transient Hybrid Simulation Framework Design and Practical Engineering Application for AC / DC Power Grid
E3S Web of Conferences
author_facet Weijie Zheng
Dechao Xu
Yong Chen
Xing Zhang
Qing Mu
author_sort Weijie Zheng
title Multi Step Transient Hybrid Simulation Framework Design and Practical Engineering Application for AC / DC Power Grid
title_short Multi Step Transient Hybrid Simulation Framework Design and Practical Engineering Application for AC / DC Power Grid
title_full Multi Step Transient Hybrid Simulation Framework Design and Practical Engineering Application for AC / DC Power Grid
title_fullStr Multi Step Transient Hybrid Simulation Framework Design and Practical Engineering Application for AC / DC Power Grid
title_full_unstemmed Multi Step Transient Hybrid Simulation Framework Design and Practical Engineering Application for AC / DC Power Grid
title_sort multi step transient hybrid simulation framework design and practical engineering application for ac / dc power grid
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2021-01-01
description Based on the large power grid simulation and the existing security prevention and control mode, this paper further integrates the multi-step transient hybrid simulation architecture computing technology to research the high-performance analysis and situational awareness simulation technology of interconnected AC / DC large power grid security and stability characteristics. So as to realize the “panoramic situational awareness, wide area coordinated control, flexible and efficient service” of large power grid, and improve the super large scale power grid Comprehensive security defense and intelligent monitoring level of panoramic, multi-dimensional and three-dimensional.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/32/e3sconf_posei2021_01010.pdf
work_keys_str_mv AT weijiezheng multisteptransienthybridsimulationframeworkdesignandpracticalengineeringapplicationforacdcpowergrid
AT dechaoxu multisteptransienthybridsimulationframeworkdesignandpracticalengineeringapplicationforacdcpowergrid
AT yongchen multisteptransienthybridsimulationframeworkdesignandpracticalengineeringapplicationforacdcpowergrid
AT xingzhang multisteptransienthybridsimulationframeworkdesignandpracticalengineeringapplicationforacdcpowergrid
AT qingmu multisteptransienthybridsimulationframeworkdesignandpracticalengineeringapplicationforacdcpowergrid
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