考虑水力互联的水-机-电-网数值仿真研究OA
Numerical simulation study of hydro-mechanical-electrical-grid coupling considering water conduit system
随着电力系统中新能源装机比例的不断提高,系统对稳定性的要求愈发严格,水电机组凭借优良的调节性能在电网运行中发挥着关键作用.随着抽水蓄能电站和超大型水电站的建设,机组间通过共用输水系统形成的水力-机械-电气多场耦合作用日益显著,单机非常规运行可能通过电力通道与输水管道对整个系统产生影响.然而,水力互联作用与电力互联作用的耦合作用机理尚不明确,现有研究在水机电网动态特性分析方面缺乏有效的手段.针对上述问题,本文基于交替迭代以及分区求解方法,分别构建水电站输水管道系统与电力系统的稳态以及暂态联合计算方法,实现了水力系统与电力系统间边界的联合求解,建立了能够适用于多机共用管道的输水系统布置的水机电网耦合仿真框架.在此基础上,结合 IEEE 39 节点电力网络与两座水电站四台机组的综合模型,对系统在不同扰动(接地短路故障、负荷调整及水轮机组甩负荷)下的动态响应进行了仿真分析.研究结果表明,该方法能够准确反映水电站输水系统与电力系统间的水力-机械-电气相互作用特性,能够为复杂水机电网系统的动态特性分析与控制策略设计提供有效的仿真手段.
With the increasing penetration of renewable energy sources in power systems,requirements for system stability have become more stringent.Hydropower units play a crucial role in maintaining stable grid operation owing to their excellent regulation capability.As more pumped storage stations and large-scale hydropower plants come into operation,multi-field coupling-among hydraulic,mechanical,and electrical subsystems that share the same water conveyance systems-has become increasingly significant.Abnormal operation of a single unit may propagate its influence to the entire system via both electrical and hydraulic channels.However,the coupling mechanism between hydraulic interconnection and electrical interconnection remains yet unclear,and previous studies lack effective means for analysis of the dynamic characteristics of a hydro-mechanical-electrical coupled system.To address these problems,this study develops a steady-state and transient co-simulation method for the hydropower plant penstock system and the power systems,based on the alternating iteration concept and a partitioned solution approach,achieving coordinated boundary-consistent solutions between the hydraulic and electrical subsystems.On this basis,we construct a coupled transient simulation framework applicable to multi-unit shared penstock layouts.Integrating an IEEE 39-bus power network with two hydropower plants comprising four generating units,we examine the dynamic responses of the system under various disturbances—including three-phase short-circuit faults,load adjustments,and turbine load rejection.The results demonstrate our new method captures the interaction characteristics in the hydro-mechanical-electrical system with a good accuracy,effective and useful for stability analysis and control strategy design of such complicated systems.
刘程鹏;赵志高;殷秀兴;杨建东
武汉大学 水资源工程与调度全国重点实验室,武汉 430072武汉大学 水资源工程与调度全国重点实验室,武汉 430072武汉大学 水资源工程与调度全国重点实验室,武汉 430072武汉大学 水资源工程与调度全国重点实验室,武汉 430072
建筑与水利
输水管道系统电力网络水机电网耦合稳态模拟暂态过程
water conveyance systempower networkhydro-mechanical-electrical-grid couplingsteady state simulationtransient process
《水力发电学报》 2026 (3)
93-106,14
国家自然科学基金面上项目(52579090)
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