Optimal scheduling of CCHP microgrid considering real-time demand

Du Xiaoting, Wang Shiyu
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引用次数: 1

Abstract

By integrated management of distributed power sources, the cold-thermal power supply (CCHP) microgrid not only improves the efficiency of renewable energy utilization, reduces environmental pollution, but also ensures the stability of the system.Based on the uncertainty of each micro-source and the complexity of microgrid structure, A comprehensive real-time electricity demand optimization model based on the pre-day initial load demand, combined with electricity price incentive and user-side electricity comfort is proposed. The shift of load from peak to non-peak is realized, Multiobjective Optimization Algorithm Based on Genetic Algorithm. It is proved that the model makes the load demand curve obviously smooth and the output of each micro-source is relatively balanced, which proves that the model is scientific and effective.
考虑实时需求的热电联产微电网优化调度
冷热联产微电网通过对分布式电源的综合管理,既提高了可再生能源利用效率,减少了环境污染,又保证了系统的稳定性。基于各微源的不确定性和微网结构的复杂性,提出了一种基于日前初始负荷需求、电价激励和用户侧用电舒适性的实时综合电力需求优化模型。采用基于遗传算法的多目标优化算法,实现了负荷从峰向非峰的转移。结果表明,该模型使负荷需求曲线明显平滑,各微源输出相对平衡,证明了该模型的科学性和有效性。
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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