中国电机工程学报2024,Vol.44Issue(7):2590-2603,后插7,15.DOI:10.13334/j.0258-8013.pcsee.221474
计及动态频率响应约束的高比例风电电力系统日前-日内联合调度策略
Day-ahead and Intra-day Joint Dispatch Strategy of High Proportion Wind Power System Considering Dynamic Frequency Response Constraints
摘要
Abstract
A high proportion wind power system has the characteristics of low inertia and weak frequency modulation ability,which is easy to cause frequency safety problems.In the existing research on dispatch strategy considering frequency security constraints,the means of frequency modulation are mainly inertial response and primary frequency modulation.There are few studies considering the dynamic response of system spinning reserve and emergency power support under high power disturbance such as single unit fault.Hereto,the dynamic frequency response constraints of system under expected low power disturbance and high power disturbance are introduced into the day-ahead and intra-day joint dispatch model.First,the dynamic frequency response models of system under two expected power disturbance are constructed respectively,then the ladder reserve method is used to reduce the order of the model,and the analytical expressions of the frequency index under the two models are derived.Then,the day-ahead and intra-day joint dispatch architecture considering dynamic frequency response constraints is proposed.The day-ahead and intra-day dispatch models are constructed respectively.Furthermore,aiming at the nonlinear problem caused by the maximum frequency difference constraints in the dispatch model,the two-stage iterative method is used to solve it.Finally,an example is given to show that the proposed joint dispatch strategy can meet the requirements of system economic operation and frequency security.关键词
高比例风电电力系统/动态频率响应/阶梯备用/日前-日内联合调度/两阶段迭代方法Key words
high proportion wind power system/dynamic frequency response/ladder reserve/day-ahead and intra-day joint dispatch/two-stage iterative method分类
信息技术与安全科学引用本文复制引用
王廷涛,苗世洪,姚福星,刘志伟,张松岩..计及动态频率响应约束的高比例风电电力系统日前-日内联合调度策略[J].中国电机工程学报,2024,44(7):2590-2603,后插7,15.基金项目
国家电网有限公司总部管理科技项目(5419-202199551A-0-5-ZN).Project Supported by Science and Technology Project of State Grid Corporation of China(5419-202199551A-0-5-ZN). (5419-202199551A-0-5-ZN)
