Post-disaster emergency dispatching of distribution network for hydrogen energy port considering the risk of frequency overruns

Post-disaster emergency dispatching of distribution network for hydrogen energy port considering the risk of frequency overruns

To address the severe load interruption and economic losses caused by extreme disasters in port distribution network, this paper proposes a post-disaster emergency dispatching strategy of distribution network for hydrogen energy port considering frequency constraints. An operational model for port h...

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Bibliographic Details
Main Authors: YANG Jiahui, WANG Yuxi, SUI Quan, LIN Xiangning
Format: Article
Language:zho
Published: Harbin Jinhe Electrical Measurement & Instrumentation Magazine Publishing Co., Ltd. 2025-06-01
Series:Diance yu yibiao
Subjects:
hydrogen energy port
post-disaster emergency dispatching
reversible solid oxide cell
multiple time scale
Online Access:http://www.emijournal.net/dcyyb/ch/reader/create_pdf.aspx?file_no=20250301003&flag=1&journal_id=dcyyb&year_id=2025
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Summary:To address the severe load interruption and economic losses caused by extreme disasters in port distribution network, this paper proposes a post-disaster emergency dispatching strategy of distribution network for hydrogen energy port considering frequency constraints. An operational model for port hydrogen energy systems is established through quantitative analysis of reversible solid oxide cells and operating characteristics of hydrogen storage stations, along with their interdependencies. Building upon this foundation, a multiple time scale emergency dispatching methodology is developed by incorporating electricity-hydrogen supply-demand relationships. Specifically, for long-term scheduling, nodal loads are subdivided into power-continuously adjustable controllable loads and uncontrollable loads determined by feeder switches, with multi-type load interruption constraints formulated. For short-term scheduling, frequency stability constraints of distribution network are established considering the stochasticity and volatility of renewable energy generation and loads. Subsequently, the big-M method is employed to transform nonlinear constraints in model into a classical mixed-integer linear programming problem for solution. Simulation verification is carried out through the modified IEEE 33-node distribution network. Simulation results demonstrate that the proposed strategy can effectively reduce post-disaster losses while ensuring power supply reliability and grid security, offering a novel perspective for post-catastrophe energy restoration.
ISSN:1001-1390

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