Industrial energy hubs with electric, thermal and hydrogen demands for resilience enhancement of mobile storage-integrated power systems

In recent decades, climate change has severely increased the concerns over the resilience of power systems. Extreme events may lead to the failure of a large number of system components and result in interruption of supply to lots of consumers. In this research, the main objective is to use and asse...

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Bibliographic Details
Published in:International journal of hydrogen energy 2024-01, Vol.50, p.77-91
Main Authors: Rezaee Jordehi, A., Mansouri, Seyed Amir, Tostado-Véliz, Marcos, Iqbal, Atif, Marzband, Mousa, Jurado, Francisco
Format: Article
Language:English
Subjects:
Demand response
Energy hub
Heat & power & hydrogen
Hydrogen
Mobile storage
Power system resilience
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Summary:In recent decades, climate change has severely increased the concerns over the resilience of power systems. Extreme events may lead to the failure of a large number of system components and result in interruption of supply to lots of consumers. In this research, the main objective is to use and assess the potential of large industrial energy hubs (EHs) in resilience improvement of power systems. Mobile energy storage and demand response programs are also used to decrease involuntary demand shed in system and enhance system resilience. A stochastic mixed-integer linear programming model is developed considering the uncertainties in damaged transmission lines, hurricane time and repair time. Case study is a modified IEEE 24-bus power system with EHs. The studied EH receives gas from a gas network, exchanges power with power system, includes combined heat and power (CHP), generator, electrolyzer, boiler, thermal storage and hydrogen storage system and feeds electric, heat and hydrogen demands. Expected load not supplied (ELNS) is used as resilience metric. The results approve significant impact of EH in improvement of power system resilience. In scenarios in which the bus connected to EH is isolated, EH supplies the power system demand located at that bus and thereby improves system resilience; on the other hand, in other scenarios, EH typically behaves as an electricity consumer of power system. According to the results, mobile energy storage causes a 2.4% improvement in ELNS. The results also show that demand response program improves ELNS by 7.1%. •Energy hub and mobile storage are used for resilience enhancement of power systems.•Uncertainties in damaged lines, hurricane time and repair time are considered.•The effect of responsive demands on power system resilience is evaluated.•The effect of EH generator size on power system resilience is assessed.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2023.07.205