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Grid Forming MMC-HVDC for Enhanced Renewable Energy Integration in Interconnected Power SystemsFAN, Z.   , WU, Y. , HAN, N. |
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Author keywords
inverter, grid forming, MMC-HVDC, grid partitioning, electromagnetic transients
References keywords
power(24), grid(22), energy(15), forming(13), systems(10), control(9), stability(7), current(7), system(6), storage(6)
Blue keywords are present in both the references section and the paper title.
About this article
Date of Publication: 2025-02-28
Volume 25, Issue 1, Year 2025, On page(s): 3 - 10
ISSN: 1582-7445, e-ISSN: 1844-7600
Digital Object Identifier: 10.4316/AECE.2025.01001
SCOPUS ID: 86000281409
Abstract
With the increasing penetration of renewable energy generation, the fluctuating power output and widespread use of power electronic devices pose significant challenges to power grid stability. Enhancing the grid integration and long-distance transmission capacity of large-scale renewable energy has become a critical technical challenge. Existing research primarily focuses on the grid-connected characteristics of individual inverters, while research on the overall stability of power systems with large-scale renewable energy inverter integration remains relatively limited. This paper establishes an electromagnetic transient simulation model of a large-scale power grid with a high proportion of renewable energy integration. Furthermore, it investigates the dynamic response characteristics of various grid-forming control strategies under unified inverter control architecture within an MMC-HVDC based DC partitioned grid system. Simulation results based on the IEEE 39-bus system demonstrate that the proposed system enables power sharing between geographically separated grid partitions, effectively reduces energy storage requirements and short-circuit current levels, and provides a novel approach for planning and control strategies for large-scale renewable energy grid integration. |
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Faculty of Electrical Engineering and Computer Science
Stefan cel Mare University of Suceava, Romania
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Faculty of Electrical Engineering and Computer Science
Stefan cel Mare University of Suceava, Romania
All rights reserved: Advances in Electrical and Computer Engineering is a registered trademark of the Stefan cel Mare University of Suceava. No part of this publication may be reproduced, stored in a retrieval system, photocopied, recorded or archived, without the written permission from the Editor. When authors submit their papers for publication, they agree that the copyright for their article be transferred to the Faculty of Electrical Engineering and Computer Science, Stefan cel Mare University of Suceava, Romania, if and only if the articles are accepted for publication. The copyright covers the exclusive rights to reproduce and distribute the article, including reprints and translations.
Permission for other use: The copyright owner's consent does not extend to copying for general distribution, for promotion, for creating new works, or for resale. Specific written permission must be obtained from the Editor for such copying. Direct linking to files hosted on this website is strictly prohibited.
Disclaimer: Whilst every effort is made by the publishers and editorial board to see that no inaccurate or misleading data, opinions or statements appear in this journal, they wish to make it clear that all information and opinions formulated in the articles, as well as linguistic accuracy, are the sole responsibility of the author.