摘要
在“双碳”目标的背景下,风光火储一体化系统在发电过程中能够有效减少碳排放、提高能源利用率,并促进可再生能源的消纳,因此成为众多学者关注的研究热点。该文首先概述风光火储一体化系统及其研究现状,随后围绕一体化系统的优化调度模型、求解方法和调度策略进行梳理与归纳。基于基本模型,分别讨论考虑火电机组深度调峰和风光不确定性的优化调度模型,并对常见求解方法进行比较。最后,总结风光出力预测和系统结构优化的调度策略,并展望未来研究方向。
In the context of China's"Double Carbon"goals,wind-solar-thermal-energy storage integrated systems have garnered significant research attention for their potential to reduce carbon emissions,improve energy utilization efficiency,and promote renewable energy integration.This paper first provides an overview of wind-solar-thermal-energy storage systems and their current research status.It then organizes and summarizes the optimal dispatch models,solution methods,and dispatch strategies associated with integrated systems.Based on fundamental models,the study discusses the optimal dispatch models that consider the deep peak-shaving of thermal power units and the uncertainties of wind and solar generation,and it compares common solution methods.Finally,the scheduling strategies for wind and solar output prediction and system structure optimization are summarized,and future research directions are prospected.
出处
《科技创新与应用》
2026年第6期77-83,共7页
Technology Innovation and Application
关键词
风光火储一体化系统
优化调度
求解方法
调度策略
容量配置
wind-solar-thermal-energy storage integrated system
optimal scheduling
solution method
scheduling strategy
capacity configuration
