Robust Planning for Hydrogen-Based Multienergy System Considering P2HH and Seasonal Hydrogen Storage

IF 1.9 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC International Transactions on Electrical Energy Systems Pub Date : 2024-11-19 DOI:10.1155/2024/1156761

Shufan Wang, Dong Yang, Linglu Zhang, Lingzhi Chenmei

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Abstract

Since renewable energy is rapidly growing in the active distribution networks, the integrated energy system coupled with energy storage is a promising way to address the intermittent issues of renewable sources. This paper proposes an optimal planning model for the hydrogen-based integrated energy system (HIES) considering power to heat and hydrogen (P2HH) and seasonal hydrogen storage (SHS) to take full advantage of multienergy complementarity. To tackle the unstable factors introduced by renewable sources and varying loads, we apply robust optimization and stochastic programming theory to improve the robustness of the planning results. Meanwhile, we also consider the N-1 contingency constraints to make the technology selection, capacity allocation, and economic operation more reliable. The complex constraints resulting from producing two independent binary variables are converted into mixed integer linear constraints, which can be solved effectively using the nested column-and-constraint generation algorithm. Numerical simulation demonstrates the effectiveness of the P2HH and SHS in reducing the total cost of the HIES planning.

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考虑 P2HH 和季节性储氢的氢基多种能源系统的稳健规划

由于可再生能源在有源配电网中迅速增长，与储能相结合的综合能源系统是解决可再生能源间歇性问题的一种有前途的方法。本文提出了氢基综合能源系统（HIES）的优化规划模型，考虑了电能转化为热能和氢气（P2HH）以及季节性氢气储存（SHS），以充分利用多能源互补的优势。针对可再生能源和负荷变化带来的不稳定因素，我们采用了稳健优化和随机编程理论，以提高规划结果的稳健性。同时，我们还考虑了 N-1 应急约束，使技术选择、容量分配和经济运行更加可靠。将产生两个独立二进制变量产生的复杂约束转化为混合整数线性约束，利用嵌套列和约束生成算法可以有效求解。数值模拟证明了 P2HH 和 SHS 在降低 HIES 规划总成本方面的有效性。

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来源期刊

International Transactions on Electrical Energy Systems ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

6.70

自引率

8.70%

发文量

342

期刊介绍： International Transactions on Electrical Energy Systems publishes original research results on key advances in the generation, transmission, and distribution of electrical energy systems. Of particular interest are submissions concerning the modeling, analysis, optimization and control of advanced electric power systems. Manuscripts on topics of economics, finance, policies, insulation materials, low-voltage power electronics, plasmas, and magnetics will generally not be considered for review.