氢基混合建筑微电网的能源管理系统和优化方法综述

Fahad Ali Sarwar, Ignacio Hernando-Gil, Ionel Vechiu
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摘要

基于可再生能源的微电网(MGs)在很大程度上依赖于储能技术的实施来优化其功能。传统上,电化学电池是主要的储能手段。然而,随着技术的进步,人们认识到氢气是解决微电网系统长期能源需求的一种有前途的解决方案。本研究进行了全面的文献综述,旨在分析和归纳基于氢的微电网在建筑微电网基础设施中采用的主要优化和控制方法。通过比较评估,对不同方法的优缺点进行了评价。能源管理优化技术根据其可预测性、部署可行性和计算复杂性进行了分类。此外,提出的排序系统有助于了解其在不同应用中的适用性。本综述涵盖了确定性方法、随机方法和前沿方法,如基于机器学习的方法,并比较和讨论了它们各自的优点。本研究的主要成果是对氢基传感技术的各种能源管理策略(EMS)方法进行分类,并建立了一种机制,以确定哪些方法适合在什么条件下使用。最后,详细分析了以氢利用为重点的各种混合微电网系统控制和优化策略的优缺点。
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Review of energy management systems and optimization methods for hydrogen-based hybrid building microgrids

Renewable energy-based microgrids (MGs) strongly depend on the implementation of energy storage technologies to optimize their functionality. Traditionally, electrochemical batteries have been the predominant means of energy storage. However, technological advancements have led to the recognition of hydrogen as a promising solution to address the long-term energy requirements of microgrid systems. This study conducted a comprehensive literature review aimed at analysing and synthesizing the principal optimization and control methodologies employed in hydrogen-based microgrids within the context of building microgrid infrastructures. A comparative assessment was conducted to evaluate the merits and disadvantages of the different approaches. The optimization techniques for energy management are categorized based on their predictability, deployment feasibility, and computational complexity. In addition, the proposed ranking system facilitates an understanding of its suitability for diverse applications. This review encompasses deterministic, stochastic, and cutting-edge methodologies, such as machine learning-based approaches, and compares and discusses their respective merits. The key outcome of this research is the classification of various energy management strategy (EMS) methodologies for hydrogen-based MG, along with a mechanism to identify which methodologies will be suitable under what conditions. Finally, a detailed examination of the advantages and disadvantages of various strategies for controlling and optimizing hybrid microgrid systems with an emphasis on hydrogen utilization is provided.

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