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梯级水电中期随机电量平衡灵活性支撑调度方法OA

Mid-term Stochastic Energy Balance Flexibility Support Scheduling Method for Cascaded Hydropower

中文摘要英文摘要

风光大规模并网致使电力系统供需不平衡风险急剧攀升.水电对保障电力系统稳定性、应对新能源波动具有重要的灵活性支撑作用.然而,梯级水电在支撑随机日电量平衡需求时,面临复杂非线性时空水力电力关系与长时序随机电量平衡需求深度耦合、库容限制及长期综合利用库容目标控制等多重挑战,严重制约水电灵活性发挥.为此,该文以发电量最大为目标,基于水力电力时空耦合关系,表征电量平衡支撑流量、出力与库容等随机状态,构建电量平衡支撑过程的随机性约束,进而提出水电中期随机电量平衡支撑调度模型;通过拉格朗日对偶理论对随机约束进行确定性重构,将原模型转化为混合整数二次规划模型以实现求解.相较于传统方法,该方法在电量平衡支撑能力充裕性、计划执行安全性及求解精度和效率方面具有优势.同时,该方法适用于多种调度需求及供需不平衡风险场景.结果表明,所提方法可为水电支撑电网电量平衡调度工作提供有效的理论方法支持.

The large-scale integration of wind and solar power has caused the risk of supply-demand imbalances in power systems to rise sharply.Hydropower plays a crucial role in ensuring the stability of the power system and responding to fluctuations in renewable energy.However,when cascade hydropower stations support the random daily energy balance demand,they face multiple challenges,including the complex nonlinear spatial-temporal coupling of hydraulic and power generation processes,the deep coupling of long-term random energy balance demand,reservoir capacity limitations,and long-term comprehensive utilization goals.These challenges severely restrict the flexibility of hydropower.To address these issues,this paper proposes a hydropower mid-term random energy balance support scheduling model,with the objective of maximizing power generation.Based on the spatial-temporal coupling relationship between hydraulic and power generation processes,the model characterizes the random states of energy balance support,such as flow,output,and reservoir capacity,and establishes the randomness constraints for the energy balance support process.The model is then solved by applying Lagrangian duality theory to deterministically reconstruct the random constraints and convert the original model into a mixed-integer quadratic programming(MIQP)model for efficient solution.Compared to traditional methods,the proposed approach demonstrates significant advantages in terms of the adequacy of energy balance support capacity,plan execution safety,as well as solution accuracy and computational efficiency.Additionally,the proposed method is adaptable to various scheduling requirements and supply-demand imbalance risk scenarios.The results show that the proposed method provides effective theoretical support for hydropower in energy balance scheduling for grid stability.

康雍喜;赵志鹏;程春田;苏华英

大连理工大学,辽宁省 大连市 116024大连理工大学,辽宁省 大连市 116024大连理工大学,辽宁省 大连市 116024贵州电力调度控制中心,贵州省 贵阳市 550000

信息技术与安全科学

供需不平衡风险水电电量平衡灵活性拉格朗日对偶

risk of supply-demand imbalanceshydropowerenergy balanceflexibilityLagrangian duality

《中国电机工程学报》 2026 (8)

3106-3117,中插4,13

国家自然科学基金(重点项目)(52239001).Project Supported by National Natural Science Foundation of China(Key Program)(52239001).

10.13334/j.0258-8013.pcsee.242409

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