Optimal scheduling for renewable power grid and vessel-based hydrogen chain integrated systems considering flexible energy transfer

Sui, Quan; Zhang, Jingyu; Li, Jiangze; Li, Zhongwen; Su, Chengguo; Liu, Chang

doi:10.1016/j.apenergy.2024.123401

Applied Energy

2024

DOI: 10.1016/j.apenergy.2024.123401

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Optimal scheduling for renewable power grid and vessel-based hydrogen chain integrated systems considering flexible energy transfer

Quan Sui,

Jingyu Zhang,

Jiangze Li

et al.

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Cited by 2 publications

References 29 publications

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On the importance of degradation modeling for the robust design of hybrid energy systems including renewables and storage

Superchi,

Moustakis,

Pechlivanoglou

et al. 2025

Applied Energy

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On the importance of degradation modeling for the robust design of hybrid energy systems including renewables and storage

Superchi,

Moustakis,

Pechlivanoglou

et al. 2025

Applied Energy

View full text Add to dashboard Cite

Resilience enhancement strategies for power distribution network based on hydrogen storage and hydrogen vehicle

Xie,

Zhao,

Chen

et al. 2024

IET Energy Syst Integration

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In light of the increasing hydrogen permeability in distribution networks as a means to cope with extreme events and improve network resilience, this paper introduces a novel strategy for enhancing power distribution network resilience. It outlines a comprehensive approach that focuses on dispatching hydrogen storage (HS) and hydrogen vehicle (HV) within hydrogen penetrated distribution systems (HPDS), segmenting the strategy into pre‐disaster and post‐disaster stages. Firstly, in the pre‐disaster stage, models for HS and HVs are established to gather operational data and facilitate rapid post‐disaster response, alongside a coupled electric grid and road network model for optimising HV routing and dispatch. Subsequently, the post‐disaster stage focuses on a scheduling model that aims to minimise load power losses and economic costs, balancing immediate power support with cost‐effectiveness through detailed analysis of HS and HV dispatch strategies. Finally, this paper demonstrates the effectiveness of this strategy via a case study, highlighting significant improvements in network resilience and recovery and underscoring the potential of hydrogen technologies in enhancing infrastructure resilience.

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Optimal scheduling for renewable power grid and vessel-based hydrogen chain integrated systems considering flexible energy transfer

Cited by 2 publications

References 29 publications

On the importance of degradation modeling for the robust design of hybrid energy systems including renewables and storage

On the importance of degradation modeling for the robust design of hybrid energy systems including renewables and storage

Resilience enhancement strategies for power distribution network based on hydrogen storage and hydrogen vehicle

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