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Applications of Energy Storage Systems in Enhancing Energy Management and Access in Microgrids: A Review

机译:储能系统在微电网能源管理与接入中的应用进展

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As the world's population continues to grow and the demand for energy increases, there is an urgent need for sustainable and efficient energy systems. Renewable energy sources, such as wind and solar power, have the potential to play a significant role in meeting this demand, but their intermittency can make integration into existing energy systems a challenge. Moreover, the development of sustainable energy systems has become even more critical in recent years, due to a confluence of events, including the decline in fuel prices, geopolitical conflicts, and the recent COVID-19 pandemic. The decrease in fuel prices has led to a decline in investment in renewable energy and has slowed the transition to sustainable energy systems. Additionally, geopolitical conflicts and pandemics have highlighted the need for resilient and self-sufficient energy systems that can operate independently of external factors. Also, energy storage technologies play a critical role in achieving this goal by providing reliable backup power and enabling microgrids to operate independently of the larger power grid. As such, developing efficient and effective energy storage technologies is essential for creating sustainable energy systems that can meet the demands of modern society while mitigating the impact of external factors. In this regard, this work provides an overview of microgrids' latest energy storage technologies, including their applications, types, integration strategies, optimization algorithms, software, and uncertainty analysis. Energy storage technologies have a wide range of applications in microgrids, including providing backup power and balancing the supply and demand of energy. Different energy storage techniques have been discussed, including batteries, flywheels, supercapacitors, pumped hydro energy storage, and others. Moreover, integration strategies of energy storage in microgrids, models, assessment indices, and optimization algorithms used in the design of energy storage systems are presented in detail. The capabilities of software used in energy storage sizing are explored. Further, uncertainty analysis in modeling energy storage devices is presented and discussed. This state-of-the-art technology has been prepared to demonstrate the effectiveness of energy storage technologies in microgrids, providing valuable insights for future developments in the field.
机译:随着世界人口的持续增长和对能源需求的增加,迫切需要可持续和高效的能源系统。风能和太阳能等可再生能源有可能在满足这一需求方面发挥重要作用,但它们的间歇性可能使集成到现有能源系统中成为一项挑战。此外,由于燃料价格下跌、地缘政治冲突和最近的 COVID-19 大流行等一系列事件的汇合,近年来可持续能源系统的发展变得更加重要。燃料价格的下降导致可再生能源投资下降,并减缓了向可持续能源系统的过渡。此外,地缘政治冲突和流行病凸显了对能够独立于外部因素运行的有弹性和自给自足的能源系统的需求。此外,储能技术通过提供可靠的备用电源并使微电网能够独立于更大的电网运行,在实现这一目标方面发挥着关键作用。因此,开发高效和有效的储能技术对于创建可持续的能源系统至关重要,该系统既能满足现代社会的需求,又能减轻外部因素的影响。在这方面,本文概述了微电网的最新储能技术,包括其应用、类型、集成策略、优化算法、软件和不确定性分析。储能技术在微电网中有着广泛的应用,包括提供备用电源和平衡能源供需。已经讨论了不同的储能技术,包括电池、飞轮、超级电容器、抽水蓄能等。此外,还详细介绍了储能在微电网中的集成策略、模型、评估指标和用于储能系统设计的优化算法。探讨了用于储能规模调整的软件的功能。此外,还提出并讨论了储能器件建模中的不确定性分析。这项最先进的技术旨在证明储能技术在微电网中的有效性,为该领域的未来发展提供宝贵的见解。

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