基于需求响应的虚拟电厂多时间尺度优化调度

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中文摘要：随着我国不断加快新型电力系统建设,风电、光伏等越来越多的分布式资源大规模并网,但其随机性、波动性及分散性的特点给电力系统带来了多重不确定性.提出了一种考虑价格型需求响应的虚拟电厂多时间尺度优化调度方法,在日内调度模型中引入用户价格型需求响应,对用户负荷进行精准调控;采用基于蒙特卡罗与曼哈顿概率距离的场景生成与削减法处理风光出力、电价不确定性,减少日前日内出力偏差,再结合日前调度构成了多时间尺度优化调度模型,并采用滚动优化得到日内优化调度结果.以湖南某小型虚拟电厂系统进行算例仿真,结果表明,所提多时间尺度优化调度策略能够精确预测风光出力及用户负荷,在有效抑制功率波动的同时保证了系统的经济性.

外文标题：A Multi-Time Scale Optimal Scheduling Strategy of Virtual Power Plants Based on Demand Response

外文摘要：As China continues to accelerate the construction of new power systems,more and more distributed resources such as wind power and photovoltaic are connected to the grid on a large scale,but the randomness,volatility and dispersed characteristics of new energy bring about multiple uncertainties to the power system.In this paper,an improved multi-time scale optimization scheduling method considering price-based demand response is proposed.Firstly,the price based demand response is introduced into the intraday scheduling model to accurately regulate the user load.Secondly,the scenario generation and reduction method based on the Monte Carlo and Manhattan Distance is used to deal with the uncertainty of wind power and electricity price,and the day-ahead and intraday output deviations are reduced.And combined with the day-ahead scheduling,the VPP multi-time scale optimal scheduling model is formed,and the intraday optimal scheduling results are obtained by rolling optimization method.Finally,a small VPP system in Hunan Province is simulated,the results show that the proposed multi-time scale optimization scheduling strategy can accurately predict the wind and solar power output and user load,effectively suppressing power fluctuations while ensuring the system economy.

外文关键词：

distributed energy resourceprice-based demand responsevirtual power plantmulti-time scale optimal scheduling strategyuncertaintiesrolling optimization

作者：

杨力帆、周鲲、齐增清、李东东、岑闻雨、沈运帷

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作者单位：

湖南经研电力设计有限公司,湖南长沙 410000

规模化电池储能应用技术湖南省工程研究中心,湖南长沙 410000

上海电力大学电气工程学院,上海杨浦 200090

关键词：

分布式资源价格型需求响应虚拟电厂多时间尺度优化调度不确定性滚动优化

基金：

国家自然科学基金规模化电池储能应用技术湖南省工程研究中心项目

项目编号：

52377111HEID2022002

出版年：

2024

电网与清洁能源

西北电网有限公司　西安理工大学水电土木建筑研究设计院

电网与清洁能源

CSTPCD北大核心

影响因子：1.122

ISSN：1674-3814

年,卷(期)：2024.40(3)

参考文献量44