Optimal configuration of hybrid hydrogen-to-power system for power systems with high wind energy penetration

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Hongzhen Wang, Boyu Qin, Tao Ding, Fan Li
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引用次数: 0

Abstract

Hydrogen energy storage plays an important role in improving the operation efficiency and reliability of power systems with high wind energy penetration. Hydrogen to power (HtP) system is the key link of hydrogen applications. However, the single HtP equipment is limited in power output range and efficiency. Hybrid HtP system is an important scheme to realize the performance complementary. A wider power output range can enrich the application scenarios of hydrogen energy storage and provide flexible and reliable energy scheduling in larger and more complex energy systems. In this study, first, a power system including traditional units, wind power generation and hybrid HtP system is established. Second, a bi-layer hybrid HtP system optimal configuration model considering planning and operation is constructed. Then, a bi-layer optimal configuration method based on the improved PSO algorithm is proposed. Finally, the optimization model and its solution method are applied to IEEE RTS-96. The discussions based on the optimization results show that the hybrid HtP system has significant contributions in optimizing the output cost of traditional units, improving the utilization of wind energy, and reducing load shedding losses.

Abstract Image

风能渗透率高的电力系统中氢-电混合系统的优化配置
氢储能在提高高风能渗透率电力系统的运行效率和可靠性方面发挥着重要作用。氢能发电(HtP)系统是氢能应用的关键环节。然而,单一的氢能发电设备在功率输出范围和效率方面受到限制。混合 HtP 系统是实现性能互补的重要方案。更宽的功率输出范围可以丰富氢储能的应用场景,为更大型、更复杂的能源系统提供灵活可靠的能量调度。本研究首先建立了一个包括传统机组、风力发电和混合氢储能系统在内的电力系统。其次,构建了考虑规划和运行的双层混合 HtP 系统优化配置模型。然后,提出一种基于改进 PSO 算法的双层优化配置方法。最后,将优化模型及其求解方法应用于 IEEE RTS-96。基于优化结果的讨论表明,混合 HtP 系统在优化传统机组的输出成本、提高风能利用率和减少甩负荷损失方面具有重要贡献。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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