利用有效调度策略和电池技术优化独立农村微电网规划

Energy Storage Pub Date : 2024-11-10 DOI:10.1002/est2.70092
Md. Mustafa Kamal
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引用次数: 0

摘要

微电网是传统电力系统的可行替代品,因为它们可以提供更清洁、更可靠、更经济的电力,而且损耗更少。然而,微电网的性能会受到可再生能源多变性的影响。电池储能是微电网规划的重要组成部分,因为它决定了系统的技术经济可行性。本研究设计了一个独立的农村微电网,采用了三种不同类型的电池:锂离子电池、铅酸电池和锌溴液流电池。建议的微电网技术经济分析采用了三种不同的调度机制,即循环充电、负载流和完全调度。建议框架的案例研究在印度勒克瑙进行。系统包括光伏/电池/风能系统/柴油和电池。模拟结果表明,采用完全调度策略和锌溴电池,电气化成本最低的最优系统为 0.113 美元/千瓦时。该系统包括 206 千瓦时锌溴液流电池、10 千瓦变流器、20 千瓦光伏发电、13 千瓦柴油发电机和联合调度策略。在所选地区,该系统的单位能源净现值成本分别为 40 275 美元和 0.113 美元/千瓦时。与混合动力系统的其他两种电池技术相比,锌溴液流电池技术也被证明是最环保的。在现有的三种电池技术中,锌溴液流电池最适合用于特定地点的混合运行。
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Optimal Planning of Standalone Rural Microgrid With Effective Dispatch Strategies and Battery Technology

Microgrids are a viable substitute for traditional power systems because they may deliver cleaner, more dependable, affordable power with fewer losses. However, the microgrid's performance is impacted by the variable nature of renewable energy sources. Battery storage is a crucial component of microgrid planning since it defines the system's techno-economic feasibility. A standalone rural microgrid is designed in the current study, employing three distinct battery types: lithium-ion, lead acid, and zinc-bromine flow. The suggested microgrid's techno-economic analysis employs three distinct dispatch mechanisms, that is, cycle charging, load flow, and complete dispatch. The case study of the suggested framework is carried out in Lucknow (India). The system comprises PV/battery/wind energy system/diesel and battery. The simulation results suggest that the optimal system with the least electrification cost is 0.113 $/kWh using complete dispatch strategies and a zinc-bromine battery. It has 206 kWh zinc-bromine flow batteries, a 10 kW converter, a 20 kW PV, a 13-kW diesel generator, and a Combined dispatch strategy. The system's net present cost per unit cost of energy is $40 275 and 0.113 $/kWh for the chosen region, respectively. Compared to the other two battery technologies for hybrid systems, the zinc-bromine flow battery technology is also shown to be the most environmentally friendly. Among the three battery technologies available, zinc-bromine flow is best used in a particular location's hybridized operation.

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