中国电机工程学报2024,Vol.44Issue(1):127-146,中插11,21.DOI:10.13334/j.0258-8013.pcsee.223390
多维因素制约下新能源消纳能力评估方法研究综述
Review on the New Energy Accommodation Capability Evaluation Methods Considering Multi-dimensional Factors
摘要
Abstract
The contradiction between security and efficient consumption of large-scale new energy is a key issue that needs to be solved in the new power system.Since the level of new energy penetration is an important boundary that restricts the regulation capability and anti-disturbance performance of the new power system,it is of great significance to accurately evaluate the maximum accommodation capability of new energy for the planning,operation,and control of power systems.This paper comprehensively reviews the research status and development trends of new energy accommodation capability evaluation methods both domestically and internationally.First,the basic concept and evaluation indices of new energy accommodation capability are interpreted.Based on the characteristics of new energy output and the evolution trend of"source-grid-load"in the power system,the key factors that restrict new energy accommodation are elaborated in depth.In order to cope with the common problems and challenges faced by the new power system during the high proportion of new energy penetration,the overall research framework of the new energy accommodation capability evaluation method is proposed.The current research status of the new energy accommodation capability evaluation methods is reviewed from the perspectives of power balance,security and stability constraints,as well as power quality.Finally,some potential research directions in this field in the future are prospected.关键词
碳中和/新能源消纳/新型电力系统/电力供需平衡/安全稳定约束/渗透率Key words
carbon neutrality/new energy accommodation/new power system/power balance/security and stability constraints/penetration rate分类
信息技术与安全科学引用本文复制引用
文云峰,杨游航,邢鹏翔,晏昕童,于琳琳,蒋小亮..多维因素制约下新能源消纳能力评估方法研究综述[J].中国电机工程学报,2024,44(1):127-146,中插11,21.基金项目
国家自然科学基金项目(52077066) (52077066)
国网河南省电力公司科技项目(5217L0220006).Project Supported by National Natural Science Foundation of China(52077066) (5217L0220006)
Technology Project of State Grid Henan Electric Power Company(5217L0220006). (5217L0220006)
