中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2014年
1期
1-14
,共14页
丁明%王伟胜%王秀丽%宋云亭%陈得治%孙鸣
丁明%王偉勝%王秀麗%宋雲亭%陳得治%孫鳴
정명%왕위성%왕수려%송운정%진득치%손명
光伏发电%太阳能%电力系统%规划%综述
光伏髮電%太暘能%電力繫統%規劃%綜述
광복발전%태양능%전력계통%규화%종술
photovoltaic power generation%solar energy%power system%planning%review
人类对能源安全的担忧和环境恶化的焦虑,使得充分利用可再生能源已经成为全球共识。以太阳能、风能为代表的大规模可再生能源并网发电已经成为新型电力系统不可阻挡的发展趋势,对电力系统深层次的影响正在凸显,各国学术界和工程界均给予极大关注。该文的目的,在于综述国内外大规模光伏发电研究现状,探究光伏发电与电力系统间交互影响的因素,提炼存在的学术和工程问题,理清下一步研发思路。论文从电力系统规划、仿真、调度、控制角度,重点讨论了大规模光伏系统的建模与仿真、大规模光伏接入对系统动态和稳态特性的影响、大规模光伏外送及消纳的关键技术分析;同时,根据作者观点,分类提出了可进一步研究的重点内容,供读者参考。
人類對能源安全的擔憂和環境噁化的焦慮,使得充分利用可再生能源已經成為全毬共識。以太暘能、風能為代錶的大規模可再生能源併網髮電已經成為新型電力繫統不可阻擋的髮展趨勢,對電力繫統深層次的影響正在凸顯,各國學術界和工程界均給予極大關註。該文的目的,在于綜述國內外大規模光伏髮電研究現狀,探究光伏髮電與電力繫統間交互影響的因素,提煉存在的學術和工程問題,理清下一步研髮思路。論文從電力繫統規劃、倣真、調度、控製角度,重點討論瞭大規模光伏繫統的建模與倣真、大規模光伏接入對繫統動態和穩態特性的影響、大規模光伏外送及消納的關鍵技術分析;同時,根據作者觀點,分類提齣瞭可進一步研究的重點內容,供讀者參攷。
인류대능원안전적담우화배경악화적초필,사득충분이용가재생능원이경성위전구공식。이태양능、풍능위대표적대규모가재생능원병망발전이경성위신형전력계통불가조당적발전추세,대전력계통심층차적영향정재철현,각국학술계화공정계균급여겁대관주。해문적목적,재우종술국내외대규모광복발전연구현상,탐구광복발전여전력계통간교호영향적인소,제련존재적학술화공정문제,리청하일보연발사로。논문종전력계통규화、방진、조도、공제각도,중점토론료대규모광복계통적건모여방진、대규모광복접입대계통동태화은태특성적영향、대규모광복외송급소납적관건기술분석;동시,근거작자관점,분류제출료가진일보연구적중점내용,공독자삼고。
Because of human concern for energy security and environmental deterioration, making full use of renewable energy has been a global consensus. Power generation with large-scale renewable energy such as solar and wind energy has become the development trend of new power systems, resulting in increasingly prominent impact on power systems. Therefore, great concerns are given from academic and engineering areas of all countries. The purpose of this paper is to review the globe status of large-scale photovoltaic (PV) power generation, explore the factors affecting the interaction between solar power generation and power system, refine academic and engineering problems, and propose ideas for future research and development. From the perspective of power system planning, simulation, dispatching and control, this paper discusses the modeling and simulation of large-scale photovoltaic power generation, impacts of large scale PV integration on dynamic and static characteristics of power system, and key technologies about large scale PV power generation delivery and consumption. Meanwhile, suggestions for further research are proposed from the authors’ point of view, offering reference for readers.