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A Multi-Time-Scale Energy Allocation Strategy Considering Start–Stop Characteristics of Electrolyzers for Electricity–Hydrogen Coupling Systems

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  • Xiaojun Zhao

    (Hebei Key Laboratory of Power Electronics for Energy Conservation and Drive Control, Yanshan University, Qinhuangdao 066004, China)

  • Zhiwei Yun

    (Hebei Key Laboratory of Power Electronics for Energy Conservation and Drive Control, Yanshan University, Qinhuangdao 066004, China)

  • Haodong Dang

    (Hebei Key Laboratory of Power Electronics for Energy Conservation and Drive Control, Yanshan University, Qinhuangdao 066004, China)

  • Zixian He

    (State Grid Zhangjiakou Power Supply Company, Zhangjiakou 075000, China)

  • Adugna Gebrie Jember

    (Hebei Key Laboratory of Power Electronics for Energy Conservation and Drive Control, Yanshan University, Qinhuangdao 066004, China)

  • Shiwei Li

    (Sicon Chat Union Electric Co., Ltd., Shijiazhuang 050035, China)

Abstract

In electricity–hydrogen coupling systems (EHCSs), the uncertainty of renewable energy generation (REG) tends to impact electrolyzers (ELs) in the following ways: (1) input powers of ELs are prone to fluctuations; (2) ELs are forced to operate under variable load states. Consequently, both impacts will reduce the service life of ELs. In this paper, considering the start–stop characteristics and combined operation modes of multiple ELs, a two-stage multi-time-scale energy allocation strategy (MSEAS) is proposed to mitigate the impacts of REG uncertainty and optimize the energy allocation for EHCSs. First, five refined operating states of ELs, such as shutdown, cold standby, low-load, variable-load and overload, are formulated as mixed-integer constraints and embedded into the system-level energy optimization model. Second, to mitigate power fluctuations caused by REG, a day-ahead optimization is employed to plan the power allocations of ELs, lithium batteries, fuel cells, and the grid with a 1 h time step; and then an intra-day rolling optimization is employed to adjust the operating states and power outputs of the above units with a 4 h window and 15 min step. Third, by enabling multiple ELs to flexibly operate in a combined mode, power-sharing mode and switching mode, the proposed MSEAS can refine the operation powers of ELs and reduce their start-up frequency. Comparative case studies are conducted in the off-grid and grid-connected operation tests, and the relevant results verify that the proposed MSEAS can effectively prevent the frequent start–stop of ELs, which contributes to extending the service life of ELs and reducing the system operating cost.

Suggested Citation

  • Xiaojun Zhao & Zhiwei Yun & Haodong Dang & Zixian He & Adugna Gebrie Jember & Shiwei Li, 2026. "A Multi-Time-Scale Energy Allocation Strategy Considering Start–Stop Characteristics of Electrolyzers for Electricity–Hydrogen Coupling Systems," Sustainability, MDPI, vol. 18(12), pages 1-21, June.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:12:p:5977-:d:1964681
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