中国智能电网发展述评、展望与建议

黄训诚; 和萍; 崔光照; 史峰; 耿斯涵

doi:10.3969/j.issn.2096-1553.2016.2.008

March 2016

Article Contents

HUANG Xun-cheng, HE Ping, CUi Guang-zhao, et al. Review, development and suggestion of Chinese smart grid[J]. Journal of Light Industry, 2016, 31(2): 54-65. doi: 10.3969/j.issn.2096-1553.2016.2.008

Citation: HUANG Xun-cheng, HE Ping, CUi Guang-zhao, et al. Review, development and suggestion of Chinese smart grid[J]. Journal of Light Industry, 2016, 31(2): 54-65. doi: 10.3969/j.issn.2096-1553.2016.2.008 shu

Review, development and suggestion of Chinese smart grid

Electric Power Dispatching of State Grid He'nan Electric Power Company, Zhengzhou 450002, China;
College of Electrical and Information Engineering, Zhengzhou University of Light Industry, Zhengzhou 450002, China

Received Date: 2015-10-20

Abstract

The future development trend of China's electric powergrid is smart grid, which include such features as flexible, clean, secure, economic, friendly and so on. Based on the concept of "strong smart grid" presented in China, the driving force of development of smart grid in China is concentrated on these aspects, including the inverse distribution between energy structure and load, improving the ability of clean energy consumption, promoting low-carbon energy saving and environmental protection, the requirement of enhancing the reliability of power supply and the manufacturing capacity of equipment and so on. The smart grid construction is faced with these problems at the present stage, such as the strong growth in demand for electricity, the increasing pressure on resources and the environment, improving of regional differences in service needs, electricity reform is not yet perfect and so on. Focusing on those problems, the specific suggestions as improving the investment decision-making and planning of power grid was put forward, fault treatment and asset management and maintenance management, strengthening the demand side management and the standard system construction. Furthermore, in the future development of smart grid in China, hardware upgrade as network planning, construction, reconstruction and technical upgrading should be in consideration, the requirement of operational control, asset management and user management also should be met, the integration of the power flow, integrated business flow and information flow, and the realization of flexible access of diversified power supply should be achieved to provide convenience to each step of power users to accelerate the realization of the entire intelligent network on the management and maintenance of control and operation, and finally build a national smart grid ahead of the international level with Chinese characteristics.
- power system,
- smart grid,
- resource allocation,
- green environmental protection,
- clean energy
References
1. [1]
  EPRI.1014600 electricite de France research and development,profiling and mapping of intelligent grid R&D programs[R].Palo Alto,CA:EPRI,2006.
2. [2]
  Global Environment Fund & Centre for Smart Energy.The emerging smart grid[R].2 Edition.Washington:Global Environment Fund,2006.
3. [3]
  EPRI. Intelligrid:smart power for the 21st century[R].PaloAlto,USA:EPRI,2006.
4. [4]
  国网能源研究院.2013国内外智能电网发展分析报告[M].北京:中国电力出版社,2013.
5. [5]
  国网能源研究院.2014国内外智能电网发展分析报告[M].北京:中国电力出版社,2014.
6. [6]
  International Energy Agency,OECD.Technology roadmap smart grids[R].Paris:[s.n],2011.
7. [7]
  United States Department of Energy.Smart grid system report[R].[S.l]:U.S.Department of Energy,2009.
8. [8]
  VINCENZO G,MELETIOU A,COVRIG C F,et al.Smart grid projects in Europe:lessons learned and current developments[R].Luxembourg:Publications Office of the European Union,2013.
9. [9]
  刘振亚.智能电网技术[M].北京:中国电力出版社,2010.
10. [10]
  刘振亚.智能电网与第三次工业革命[N].科技日报,2013-12-05(1).
11. [11]
  孙伟卿,王承民,张焰.智能化电网中的柔性评价方法与应用[J].电网与清洁能源,2011,27(5):5.
12. [12]
  中国科学院"构建符合中国国情的智能电网"咨询项目工作组.中国智能电网的技术和发展[M].北京:科学出版社,2013.
13. [13]
  HU J,ZHU J,PLATT G.Smart grid-the next generation electricity grid with power flow optimization and high power quality[C]//Proc IEEE Int Conf Elect Mach Syst,Beijing:IAS IEEE,2011:1-6.
14. [14]
  FANG X,YANG D,XUE G.Evolving smart grid information management cloud ward:a cloud optimization perspective[J].IEEE Trans Smart Grid,2013,4(1):111.
15. [15]
  WANG P,RAO L,LIU X,et al.Dynamic data center operations with demand-responsive electricity prices in smart grid[J].IEEE Trans Smart Grid,2012,3(4):1743.
16. [16]
  张东霞,姚良忠,马文媛.中外智能电网发展战略[J].中国电机工程学报,2013,33(31):1.
17. [17]
  GELAZANSKAS L,GAMAGE K A A.Demand side management in smart grid:a review and proposals for future direction[J].Sustainable Cities and Society,2014,11(2):22.
18. [18]
  李乃湖,倪以信.智能电网及其关键技术综述[J].南方电网技术,2010,4(3):110.
19. [19]
  余贻鑫.智能电网的技术组成和实现顺序[J].南方电网技术,2009,3(2):1.
20. [20]
  余贻鑫,秦超,栾文鹏.智能电网基本理念阐释[J].中国科学:信息科学,2014,44(6):694.
21. [21]
  王庆红.智能电网研究综述[J].广西电力,2009,32(6):1.
22. [22]
  余贻鑫,栾文鹏.面向21世纪的智能电网[N].科学时报,2010-09-06(B3).
23. [23]
  余贻鑫,栾文鹏.智能电网述评[J].中国电机工程学报,2009,29(34):1.
24. [24]
  LIANG H,TAMANG A K,ZHUANG W H,et al.Stochastic information management in smart grid[J].IEEE in communications surveys & tutorials,2014,16(3):1746.
25. [25]
  POPEANGA J.Cloud computing and smart grids[J].Database Syst,2012,3(3):57.
26. [26]
  GUO Y,PAN M,FANG Y.Optimal power management of residential customers in the smart grid[J].IEEE Trans Parallel Distrib Syst,2012,23(9):1593.
27. [27]
  FANG X,MISRA S,XUE G,et al.Smart grid the new and improved power grid:a survey[J].IEEE Commun Surv Tuts,2012,14(4):944.
28. [28]
  YANG Z,YU S,LOU W,et al.Privacy-preserving communication and precise reward architecture for V2G networks in smart grid[J].IEEE Trans Smart Grid,2011,2(4):697.
29. [29]
  United States Department of Energy.Grid 2030:a national vision for electricity's second 100 year[R].[S.l]:United States Department of Energy Office of Electric,2003.
30. [30]
  肖世杰.构建中国智能电网技术思考[J].电力系统自动化,2009,33(9):1.
31. [31]
  常康,薛峰,杨卫东.中国智能电网基本特征及其技术进展评述[J].电力系统自动化,2009,33(17):10.
32. [32]
  德国国际合作机构.中国智能电网发展监管路径研究报告[R].[出版地不详]:国家能源局,德国联邦经济合作与发展部,2014.
33. [33]
  刘振亚.中国电力与能源[M].北京:中国电力出版社,2012.
34. [34]
  王明俊.智能电网与智能能源网[J].电网技术,2010,34(10):1.
35. [35]
  余贻鑫.智能电网的基本理念[J].天津大学学报(自然科学与工程技术版),2011,44(5):377.
36. [36]
  吴俊勇.智能电网的核心内涵和技术框架[J].电力电子,2010(1):55.
37. [37]
  JOHN M,MARK M G,DON D,et al.Strategic R&D opportunities for the smart grid[R].[S.l]:Metering and Smart Energy,2013.
38. [38]
  邱剑,王慧芳,陈志光,等.智能变电站自动化系统有效度评估模型研究[J].电力系统自动化,2013,37(9):1.
39. [39]
  祖卫华,刘莉.智能微电网控制策略浅析[J].沈阳工程学院学报(自然科学版),2012,8(3):204.
40. [40]
  刘科研,盛万兴,张东霞,等.智能配电网大数据应用需求和场景分析研究[J].中国电机工程学报,2015,35(2):287.
41. [41]
  刘小聪,王蓓蓓,李扬,等.智能电网下计及用户侧互动的发电日前调度计划模型[J].中国电机工程学报,2013,33(1):30.
42. [42]
  王思彤,周晖,袁瑞铭,等.智能电表的概念及应用[J].电网技术,2010(4):17.
43. [43]
  田世明,王搭宿,张晶.智能电网条件下的需求响应关键技术[J].中国电机工程学报,2014,34(22):3576.
44. [44]
  史梦洁,韩笑,程志艳,等.面向电力需求侧的大数据应用研究分析[J].供用电,2014,31(12):20.
45. [45]
  张钦,王锡凡,王学建.需求侧实时电价下供电商购售电风险决策[J].电力系统自动化,2010,34(3):22.
46. [46]
  张新昌,周逢权.智能电网引领智能家居及能源消费革新[J].电力系统保护与控制,2014,42(5):59.
47. [47]
  高志远,曹阳,朱力鹏.智能变电站未来发展的分析方法研究[J].电网与清洁能源,2013,29(2):11.
48. [48]
  张健,蒲天骄,王伟,等.智能电网示范工程综合评价指标体系[J].电网技术,2011,35(6):5.
49. [49]
  王益民.坚强智能电网技术标准体系研究框架[J].电力系统自动化,2010,34(22):1.
Proportional views

Get Citation

PDF

XML

Article Metrics

Article views(8782) PDF downloads(141) Cited by()

Ralated

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Review, development and suggestion of Chinese smart grid

Abstract

References

Proportional views

Article Metrics

Ralated

Proportional views

通讯作者: 陈斌, bchen63@163.com