Expanding flexibility with P2H for integrated energy systems

8th Renewable Power Generation Conference (RPG 2019) Pub Date : 1900-01-01 DOI:10.1049/CP.2019.0670

Tinghua Wang, Xiaojun Zhu, Pudong Ge, Qinran Hu, Qiuwei Wu, Xiaobo Dou, Haohui Ding

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引用次数: 5

Abstract

Combined heat and power (CHP) unit serves as a significant kind of heating source in energy systems, but its heat production must be accompanied by electric production. It could worsen the wind power curtailment in the context of large-scale installed wind farms, which is unfriendly to the integrated energy system operation. Power to hydrogen (P2H), a promising energy conversion technology, is a possible solution to mitigate this issue by consuming excessive electric power, and stored hydrogen can be used in many fields, such as fuel cell and chemical synthesis. Hence, this paper designs an integrated energy system optimisation model with P2H to discuss the feasibility of combining electric power, heat and hydrogen together. Water electrolysis is modelled with an electricity-hydrogen conversion efficiency factor, which is easy to be integrated into a mixed integer optimization problem that mimics the system operation in a 24-hour period. Three cases are designed to demonstrate that the application of P2H improves operating flexibility, and more specifically, the flexibility is visualized by showing equivalent operating region of CHP units.

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利用 P2H 提高综合能源系统的灵活性

热电联产机组是能源系统中一种重要的热源，其产热必须伴随着电力生产。在大规模安装风电场的背景下，这可能会加剧风力发电的削减，这对综合能源系统的运行是不友好的。电能制氢(P2H)是一种很有前途的能量转换技术，它可能是缓解这一问题的一种解决方案，因为它消耗了过多的电力，而且储存的氢可以用于许多领域，如燃料电池和化学合成。为此，本文设计了一个集成P2H的能源系统优化模型，探讨电、热、氢结合的可行性。水电解模型采用电-氢转换效率因子，易于集成为模拟24小时内系统运行的混合整数优化问题。设计了三个实例来说明P2H的应用提高了运行灵活性，具体来说，通过展示热电联产机组的等效运行区域，将灵活性可视化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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8th Renewable Power Generation Conference (RPG 2019)

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