我国智能电网实现低碳效益的具体路径研究被引量：1

Research on the Specific Paths to Achieve Low-carbon Benefits of Smart Grid in China

下载PDF

导出

摘要智能电网具有明显的低碳特性。研究我国智能电网实现低碳效益的具体路径,对引导智能电网促进电力系统低碳化发展具有重要意义。首先,阐述了我国智能电网的发展模式及其支撑体系,重点研究了智能电网技术支撑体系。其次,界定了智能电网低碳效益的定义和内涵。然后,基于智能电网的技术支撑体系和低碳效益内涵,分析了我国智能电网低碳效益的实现路径,提出了基于"清洁发电"、"降低损耗"、"负荷整形"和"终端节电减排"的4条具体路径。在此基础上,绘制了智能电网实现低碳效益的总体路线,为我国智能电网促进低碳的建设与发展提供参考。 Smart grid has obvious characteristics of low-carbon.Research on the specific paths to achieve low-carbon benefits of smart grid in China is significant for smart grid to guide the low-carbon development of power system.Firstly,the development mode and its support system of smart grid in China are elaborated,and the technique support system of smart grid is mainly studied.Secondly,the definition and connotation of low-carbon benefits of smart grid is defined.Then,the paths of smart grid to achieve low-carbon benefits are analyzed by considering the connotation of low-carbon benefits of smart grid and its technology support system,and the four realization paths based on clean generation,loss reducing,load shaping and energy-saving and emission reduction of end-user are put forward.On this basis,the general route of smart grid in China to achieve low-carbon benefits are given,which provide the reference for the construction and development of smart grid in China.

作者周黎莎李晨

机构地区国网四川省电力公司成都供电公司国网四川省电力公司供电服务中心

出处《现代电力》北大核心 2013年第6期67-72,共6页 Modern Electric Power

基金国家自然科学基金(71271082) 国家软科学研究计划(2012GXS4B064)

关键词智能电网低碳效益低碳技术实现路径 smart grid low-carbon benefits low-carbon

分类号 TM715 [电气工程—电力系统及自动化]

引文网络
相关文献

参考文献11

1周黎莎,余顺坤.考虑环境因素的智能电网低碳效益评价模型研究[J].华东电力,2013,41(2):275-280. 被引量：15
2Livieratos S,Vogiatzaki V E,Cottis P G. A generic framework for the evaluation of the benefits expected from the Smart Grid[J].Energies,2013,(02):988-1008.
3Geert P J,Verbong,Sjouke B. Smart grids or smart users? Involving users in developing a low carbon electricity economy[J].{H}ENERGY POLICY,2013,(01):117-125.
4U.S Department of Energy. What the smart grid means to America's future[EB/OL].http://energy.gov/sites/prod/files/oeprod/DocumentsandMedia/TechnologyProviders.pdf,2011.
5Khurana H,Hadley M,Lu N. Smart-Grid security issues[J].{H}IEEE SECURITY & PRIVACY,2010,(01):81-85.
6Beyea J. The smart electricity grid and scientific research[J].{H}SCIENCE,2010,(5981):979-980.
7温家宝.2010年政府工作报告[A]北京,2010.
8Yu X H,Cecati C,Dillon T. The new frontier of Smart Grid[J].IEEE Industrial Electronics Magazine,2011,(03):49-63.
9Clastres C. Smart grids:another step towards competition,energy security and climate change objectives[J].{H}ENERGY POLICY,2011,(09):5399-5408.
10Ardito L,Procaccianti G,Menga G. Smart Grid technologies in Europe:an overview[J].Energies,2013,(01):251.

二级参考文献5

1FIRED, LOVELL, SCHMIDT, et al. Accounting for environ-mental effects and statistical noise in data envelopment analysis [J]. Journal of Productivity Analysis, 2002(17) : 121-136.
2ANDERSEN P, PETERSEN N C. A procedure for ranking efficient units in data envelopment analysis[ J ]. Management Science, 1993, 39(10) : 1261-1264.
3国家能源局.可再生能源发展“十二五”规划[R].2012.
4贾文昭,康重庆,刘长义,李蒙.智能电网促进低碳发展的能力与效益测评模型[J].电力系统自动化,2011,35(1):7-12. 被引量：54
5陈安伟,乐全明,曹洪.我国智能电网的低碳效益分析[J].统计与决策,2012,28(8):71-74. 被引量：8