电工技术学报2025,Vol.40Issue(9):2681-2696,16.DOI:10.19595/j.cnki.1000-6753.tces.242174
基于风储一体化的构网型直驱风电机组暂态支撑能力提升策略研究
Research on the Transient Support Capacity Improvement Strategy of Grid-Forming PMSG Based on Integration of Wind Power and Storage
摘要
Abstract
After the high proportion of wind power is connected,it brings a series of problems to the stability of the frequency and voltage,and the grid needs wind power to assume the main responsibility for ensuring power supply.Existing studies have shown that the virtual synchronous grid-forming equipment,including grid-forming wind turbines,has good frequency/voltage active temporary and steady-state support capabilities,and has better temporary and steady-state adaptability in weak grid scenarios.Based on these advantages,grid-forming wind turbines are expected to play a greater role in the future grid supported by low inertia and weak voltage.However,the maximum power point tracking(MPPT)operation mode of the wind turbine and its own limited rotational energy lead to the restriction of the transient support capacity of the grid-forming permanent magnet synchronous motor(PMSG),while the grid-forming PMSG based wind-storage generator has an additional energy source due to its access to energy storage,and its transient support performance has been greatly improved,which is an effective solution.At present,the access mode of energy storage is mostly parallel energy storage on the DC side or AC side,in which the energy storage driven by grid-following control adopts the passive mode of responding to the frequency acquisition signal to support the grid frequency,and most of the energy storage driven by virtual synchronous grid-forming control is connected to the AC side of the wind turbine,and the energy storage cannot be incorporated into the virtual synchronous control system.Therefore,this study is dedicated to proposing a transient support capacity improvement strategy for grid-forming PMSG based on wind-storage integration. Firstly,the power energy storage represented by the supercapacitor was selected to form a grid-forming PMSG based Wind-storage generator with grid-forming PMSG,and the dynamic model of the grid-forming PMSG and grid-forming PMSG based wind-storage generator were established,and the constraints of the wind turbine dynamics on the frequency support capacity and transient stability of the grid-forming PMSG were summarized by analyzing the transient response of the grid-forming PMSG under frequency and voltage drops. Then,combined with the energy flow characteristics of the grid-forming PMSG based wind-storage generator in the transient support process,the transient response power of the Grid-forming control is decomposed into inertia response power signal and damping response power signal to drive energy storage,and a transient support capacity improvement strategy for grid-forming PMSG based on wind-storage integration is formed,which realizes the flexible allocation and invocation of rotor kinetic energy and energy storage,and incorporates the rotor kinetic energy and energy storage into the active support system of virtual synchronous control to improve the frequency support capacity and transient stability of the grid-forming PMSG based wind-storage generator. Finally,after simulation verification under various conditions,the strategy can improve the transient support capacity of the grid-forming PMSG based wind-storage generator,including:(1)The frequency support capacity has been improved,which reduces the constraints of MPPT on the frequency support capacity of the wind turbine.(2)The fault ride-through capability is improved,the transient fluctuation of rotor speed and DC bus voltage is effectively suppressed,the redundant energy generated by fault ride-through is effectively absorbed.(3)Combined with the fault ride-through power angle stability control strategy,the redundant energy during the fault period is converted into energy storage energy,so as to avoid the reduction of wind turbine power generation efficiency and reduce energy waste.关键词
构网型直驱风机/风储一体机/虚拟同步控制/超级电容/暂态支撑Key words
Grid-forming PMSG/wind-storage integrated generator/virtual synchronous control/supercapacitors/transient support分类
动力与电气工程引用本文复制引用
蔡光,颜湘武,李锐博,贾焦心,张书瑞..基于风储一体化的构网型直驱风电机组暂态支撑能力提升策略研究[J].电工技术学报,2025,40(9):2681-2696,16.基金项目
国家自然科学基金资助项目(52207102). (52207102)
