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Multi-Objective Robust Optimization of Integrated Energy System with Hydrogen Energy Storage

Abstract

A novel multi-objective robust optimization model of an integrated energy system with hydrogen storage (HIES) considering source–load uncertainty is proposed to promote the low-carbon economy operation of the integrated energy system of a park. Firstly, the lowest total system cost and carbon emissions are selected as the multi-objective optimization functions. The Pareto front solution set of the objective function is applied by compromise planning, and the optimal solution among them is obtained by the maximum–minimum fuzzy method. Furthermore, the robust optimization (RO) approach is introduced to cope with the source–load uncertainty effectively. Finally, it is demonstrated that the illustrated HIES can significantly reduce the total system cost, carbon emissions, and abandoned wind and solar power. Meanwhile, the effectiveness of the proposed model and solution method is verified by analyzing the influence of multi-objective solutions and a robust coefficient on the Chongli Demonstration Project in Hebei Province.

Funding source: This work is supported by the S&T Program of Hebei (20314501D); the Science and Technology Project of the Hebei Education Department (ZD2022030); and the Science and Technology Project of the Hebei Education Department (QN2021222).
Related subjects: Applications & Pathways
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/content/journal5537
2024-02-27
2024-11-22
/content/journal5537
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