基于正弦余弦算法的微电网能量管理与调度系统优化策略

Mohammad A. Islam, Md. Abu Zardar, M. Shafiullah, Awatif Nadia
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引用次数: 0

摘要

能源是发电的重要因素,社区微电网寻求将太阳能、风能、潮汐能、水电和生物能源等可再生能源与储能系统整合到配电网中。这不仅是为了国家增长的安全,也是为了最大限度地降低电力成本和可用性。可再生能源没有预测的同步发电时间表,支持电池作为储能应急供电或备用。本文提出了考虑充放电循环退化成本的电池能量预测调度方法。从经济角度来看,提前计划需要一种解决成本效率的技术。在本文中,计划开发了正弦余弦算法,属于数学三角基群扇形元启发式技术。正弦余弦算法的工作原理是三角函数的数学解决,以搜索一个区域内的目标位置评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization strategies for Micro-grid energy management and scheduling systems by Sine cosine Algorithm
Energy is an essential factor for power generation, where a community microgrid seeks to integrate renewable energy sources such as solar, wind, tidal, hydropower, and bioenergy into a distribution network along with an energy storage system. This is not only for the security of national growth, but also to minimize electricity costs and availability. The source of renewable energy has no predicted schedule for synchronization of power generation, supporting battery as energy storage for emergency supply or backup. In this paper, predictive scheduling of battery energy considering the cost of degradation due to charging and discharging cycles is proposed. According to the economy, day ahead planning has required a technique for solving the cost efficiency. In this paper, planned has developed by sine-cosine algorithm, which belongs to mathematical trigonometric base populations sector meta-heuristic technique. The sine-cosine algorithm works on the principle of trigonometric mathematical solution to search a target location within an area evaluation.
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