热力发电2025,Vol.54Issue(3):43-50,8.DOI:10.19666/j.rlfd.202407160
基于飞轮储能的离网型风光储微电网系统容量优化配置研究
Capacity optimal configuration of new off-grid wind-solar-storage microgrid system based on flywheel energy storage
摘要
Abstract
To address the electricity consumption challenges in remote regions beyond the reach of power grid,a novel off-grid microgrid system integrating wind and solar energy with flywheel storage technology is introduced.Research is conducted on the optimal capacity configuration of distributed power sources,and power output models are developed for wind turbines,photovoltaic arrays,energy storage flywheels,and diesel generators.With economic and reliability indicators as objective functions,and environmental protection indicators as constraints,a capacity optimization simulation for the microgrid system is conducted.By employing the improved NSGA-II algorithm,a multi-objective bi-level coordinated optimization of the microgrid system is performed,resulting in a Pareto optimal solution through multi-objective optimization.The TOPSIS method is utilized for decision-making,ultimately identifying the optimal solution tailored for the microgrid system.The data and conclusions obtained from this study have reference value for engineering applications in related fields.关键词
飞轮储能/微电网技术/容量优化配置/多目标优化Key words
flywheel energy storage/microgrid system/capacity optimization allocation/multi-objective optimization引用本文复制引用
王学申,孙然,许军,李玉杰,张彬,刘畅,李文艳..基于飞轮储能的离网型风光储微电网系统容量优化配置研究[J].热力发电,2025,54(3):43-50,8.基金项目
国家电网黑龙江省电力公司科技资金资助 Science and Technology Fund of State Grid Heilongjiang Electric Power Company ()
