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应对极端干旱和新能源极端预测误差的水风光中期优化调度研究

陈聪刘本希王海东王文斌

人民珠江2025，Vol.46Issue(5)：63-76,14.

人民珠江2025，Vol.46Issue(5)：63-76,14.DOI:10.3969/j.issn.1001-9235.2025.05.007

应对极端干旱和新能源极端预测误差的水风光中期优化调度研究

Mid-Term Optimal Scheduling of Hydro-Wind-Solar Systems Addressing Extreme Drought and Renewable Energy Forecast Error

陈聪 ¹刘本希 ¹王海东 ²王文斌¹

作者信息

1. 大连理工大学,辽宁大连 116024
2. 华电电力科学研究院有限公司,浙江杭州 310030
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摘要

Abstract

With the acceleration of global energy transition and frequent extreme drought events,the combined threat of low output in renewable energy forecast and sudden reductions in hydropower generation poses significant challenges to power grid security and stability.This paper proposed a flexibility regulation capability assessment method for hydropower systems to address low output in mid-term extreme forecast errors of renewable energy under extreme drought conditions.First,the auto-regressive moving average model(ARMA),standardized runoff index(SRI),and run theory were employed to construct inflow scenarios under extreme drought conditions.Subsequently,based on kernel density estimation and Copula theory,the scenario of wind-solar systems under extreme forecast error was established.On this basis,a mid-term complementary scheduling model for hydro-wind-solar systems was developed with the objective of minimizing total operational costs.The original model was transformed into a mixed-integer linear programming(MILP)model through the linearization of both objective functions and constraints.Case studies on a hydro-wind-solar integrated base of a basin in Southwest China demonstrated that the proposed method could quantitatively evaluate the flexibility regulation capacity of cascade hydropower systems in addressing low output in mid-term extreme forecast errors of renewable energy under extreme drought conditions.The paper further proposed operational strategies including critical water level control and tolerance coefficient for hydropower energy storage loss,providing theoretical support for ensuring secure and stable operation of hydro-wind-solar integrated bases under extreme conditions.

关键词

极端干旱/新能源极端预测低出力/水风光互补/蓄能损失容忍系数

Key words

extreme drought/low output in extreme forecast of renewable energy/hydro-wind-solar complementarity/tolerance coefficient for hydropower energy storage loss

分类

水利科学

引用本文复制引用

陈聪,刘本希,王海东,王文斌..应对极端干旱和新能源极端预测误差的水风光中期优化调度研究[J].人民珠江,2025,46(5):63-76,14.

基金项目

国家自然科学基金(52479003) （52479003）

人民珠江

ISSN：1001-9235

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