Advancement of Power-to-Hydrogen and Heat-to-Hydrogen technologies and their applications in renewable-rich power grids

IF 4 3区 计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Abdel-Raheem Youssef , Mohamad Mallah , Abdelfatah Ali , Essam E.M. Mohamed
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引用次数: 0

Abstract

As renewable energy sources integrate into microgrids, they bring challenges such as sudden fluctuations in weather and load demands. Power-to-Hydrogen-to-Power converts excess renewable power into chemical energy stored as hydrogen, which can be used on-site or transported for consumption. This paper presents a new model for Hydrogen Energy Storage (HES) that captures the interactions among an electrolyzer, a fuel cell, and hydrogen tanks. It proposes a management control strategy where HES units help regulate frequency within a microgrid (MG). An MG-level controller is designed to optimize power distribution, enabling rapid HES responses to correct power imbalances, with distributed generators addressing any remaining imbalances. The MG-level controller works with HES-level controllers to adjust operating modes and frequency regulation support based on hydrogen levels. Additionally, the paper explores using the Bunsen reaction to convert heat energy into hydrogen, investigating its potential for efficient hydrogen production through the thermal decomposition of hydrocarbons. The impact of this method on system performance is analyzed through simulations. The simulation results clearly show the effectiveness of implementing Bunsen support. This intervention significantly reduces frequency deviation from 0.02 Hz to 0.005 Hz and enhances hydrogen mass compared to scenarios without it, with a recorded increase of 2.391 g/sec. Furthermore, the presence of sufficient hydrogen levels in the tank due to the Bunsen reaction prolongs the operation period of Gas Turbines (GTs). The integration of Bunsen support mechanisms enhances stability within microgrid systems, highlighting their potential benefits for optimizing system performance and stability in similar applications.
推进电制氢和热制氢技术及其在可再生能源丰富的电网中的应用
随着可再生能源融入微电网,它们也带来了一些挑战,例如天气和负载需求的突然波动。电转氢"(Power-to-Hydrogen-to-Power)将多余的可再生能源转化为化学能,储存为氢气,可在现场使用或运输消费。本文提出了一种新的氢储能(HES)模型,该模型可捕捉电解槽、燃料电池和氢罐之间的相互作用。它提出了一种管理控制策略,在该策略中,氢储能装置有助于调节微电网(MG)内的频率。MG 级控制器旨在优化电力分配,使氢能蓄电池能快速响应,纠正电力失衡,并由分布式发电机解决剩余的失衡问题。MG 级控制器与 HES 级控制器协同工作,根据氢水平调整运行模式和频率调节支持。此外,论文还探讨了利用本生反应将热能转化为氢气的方法,研究了通过碳氢化合物的热分解高效制氢的潜力。本文通过模拟分析了这种方法对系统性能的影响。模拟结果清楚地表明了实施本生支持的有效性。与没有本生支持的方案相比,这种干预措施大大降低了频率偏差,从 0.02 Hz 降至 0.005 Hz,并提高了氢气质量,记录显示增加了 2.391 克/秒。此外,由于本生反应,水箱中的氢含量充足,从而延长了燃气轮机(GT)的运行时间。本生支持机制的集成增强了微电网系统的稳定性,凸显了其在类似应用中优化系统性能和稳定性的潜在优势。
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
Computers & Electrical Engineering
Computers & Electrical Engineering 工程技术-工程:电子与电气
CiteScore
9.20
自引率
7.00%
发文量
661
审稿时长
47 days
期刊介绍: The impact of computers has nowhere been more revolutionary than in electrical engineering. The design, analysis, and operation of electrical and electronic systems are now dominated by computers, a transformation that has been motivated by the natural ease of interface between computers and electrical systems, and the promise of spectacular improvements in speed and efficiency. Published since 1973, Computers & Electrical Engineering provides rapid publication of topical research into the integration of computer technology and computational techniques with electrical and electronic systems. The journal publishes papers featuring novel implementations of computers and computational techniques in areas like signal and image processing, high-performance computing, parallel processing, and communications. Special attention will be paid to papers describing innovative architectures, algorithms, and software tools.
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