电力系统自动化2026,Vol.50Issue(9):55-65,11.DOI:10.7500/AEPS20250808004
面向新型电力系统的调节容量市场机制与出清模型
Mechanism and Clearing Model of Regulatory Capacity Market for New Power System
摘要
Abstract
With the development of the new power system,the large-scale integration of renewable energy has imposed higher requirements on the regulation capability of the power system.To enhance the regulation capability of the new power system,it is necessary to establish a regulatory capacity market.First,this paper demonstrates the necessity and core value of the regulatory capacity market.Then,a framework for building the regulatory capacity market is proposed,including the market framework with the dimensions of object structure,temporal structure,spatial structure,and participant structure,as well as key mechanisms such as pricing and management mechanisms.Finally,in view of the technical challenges in market clearing for the regulatory capacity market,a clearing technique based on long-term production simulation is proposed to determine clearing results.The feasibility and effectiveness of the designed regulatory capacity market are verified through a series of scenario calculations constructed based on data from the North China.The results show that the regulatory capacity market can optimize the allocation of regulatory resources according to system demands,reasonably clear various regulatory resources,effectively enhance the renewable energy accommodation rate,ensure the economic and efficient operation of the power system,while simultaneously providing stable revenue expectations for regulatory resources.关键词
新型电力系统/可再生能源/电力市场/容量市场/调节能力/市场出清Key words
new power system/renewable energy/electricity market/capacity market/regulation capability/market clearing引用本文复制引用
张晶,陈皓轩,胡娱欧,王进..面向新型电力系统的调节容量市场机制与出清模型[J].电力系统自动化,2026,50(9):55-65,11.基金项目
国家电网有限公司华北分部科技项目:"提升电力系统灵活性的标准化产品设计及评价研究"(SGTYHT/24-JS-004). This work is supported by North China Branch of State Grid Corporation of China:"Research on Standardized Solution Design and Evaluation for Enhancing Power System Flexibility"(No.SGTYHT/24-JS-004). (SGTYHT/24-JS-004)
