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电网技术 ›› 2006, Vol. 30 ›› Issue (4): 97-102 .

• 输配电技术 • 上一篇    下一篇

基于数据包络分析的配电线路利用有效性研究

张铁峰,苑津莎,王江涛,郭 伟   

  1. 华北电力大学,河北省 保定市 071003
  • 出版日期:2006-02-20 发布日期:2006-02-20
  • 通讯作者: 张铁峰

Utilization Availability of Distribution Lines Based on Data Envelopment Analysis

ZHANG Tie-feng,YUAN Jin-sha,WANG Jiang-tao,GUO Wei   

  1. North China Electric Power University,Baoding 071003,Hebei Province,China
  • Online:2006-02-20 Published:2006-02-20

摘要: 探讨了数据包络分析(Data Envelopment Analysis,DEA)在配电线路利用有效性研究中的应用,通过对46条架空配电线路的实例研究给出了一种基于DEA的配电线路利用有效性量化评价方法。该方法从投入产出的角度构建输入、输出指标,用DEA对配电线路利用效率进行测算和评价,得出了配电线路的利用效率、非有效配电线路与其最优状况之间的差距、规模有效性总体分布情况和投入要素的冗余统计。决策者据此可采取针对性措施改善线路状况,同时也为制定配电投资和电价相关政策提供了参考依据。

关键词: 运筹学, 数据包络分析, 配电线路利用有效性, 输配电技术, 电力系统

Abstract: The application of data envelopment analysis (DEA) in utilization availability of distribution lines is researched. Through the case study on forty-six 10kV distribution lines a quantificational assessment method for utilization availability of distribution lines based on DEA is proposed. In this method the input and output indices are set from the viewpoint of input-output and the utilization efficiency of these distribution lines is calculated and evaluated by DEA, and following results are obtained, they are: the utilization efficiency of these distribution lines, the disparity between realism and optimal conditions of inefficient lines, the population distribution of scale efficiency and redundant statistics of input factors. Based on these results the decision-makers can adopt pertinent measures to improve distribution line situation, meanwhile these results can be used for reference to policy-making in distribution investments and tariff structure.

Key words: Operational research, Data envelopment analysis, Utilization availability of distribution line, Power transmission and distribution, Power system

[1] 方兴,郭志忠.配电网规划研究述评[J].电力自动化设备,2003,23(5):71-74. Fang Xing,Guo Zhizhong.Review of power distribution planning [J].Electric Power Automation Equipment,2003,23(5):71-74. [2] 高赐威,程浩忠,王旭.考虑场景发生概率的柔性约束电网规划模型[J].中国电机工程学报,2004,24(11):34-38. Gao Ciwei,Cheng Haozhong,Wang Xu.Electric power network flexible planning model based on the probability of scene occurrence[J].Proceedings of the CSEE,2004,24(11):34-38. [3] 王天华,王平洋,范明天.用演化算法求解多阶配电网规划问题[J].中国电机工程学报,2000,20(3) :34-38. Wang Tianhua,Wang Pingyang,Fan Mingtian.Optimal multi-stage distribution planning using evolutionary algorithm[J].Proceedings of the CSEE,2000,20(3):34-38. [4] 钟庆,吴捷,黄武忠,等.动态规划在电力建设项目投资决策中的应用[J].电网技术,2002,26(8):48-51. Zhong Qing,Wu Jie,Huang Wuzhong,et al.Application of dynamic programming for investment decision in electric power construction [J].Power System Technology,2002,26(8):48-51. [5] 程浩忠,高赐威,马则良,等.多目标电网规划的分层最优化方法[J].中国电机工程学报,2003,23(10):11-16. Cheng Haozhong,Gao Ciwei,Ma Zeliang,et al.The lexicographically stratified method for multi-object optimal electric power network planning[J].Proceedings of the CSEE,2003, 23(10):11-16. [6] 刘晓飞,彭建春,高效,等.基于单亲遗传算法的配电网络规划[J].电网技术,2002,26(2):53-56. Liu Xiaofei,Peng Jianchun,Gao Xiao,et al.Distribution network planning based on partheno-genetic algorithm[J].Power System Technology,2002,26(2):53-56. [7] 陈根军,唐国庆.基于禁忌搜索与蚁群最优结合算法的配电网规划[J].电网技术,2005,29(2):23-27. Chen Genjun,Tang Guoqing.Tabu search-ant colony optimization hybrid algorithm based distribution network planning[J].Power System Technology,2005,29(2): 23-27. [8] Lakervi E,Holmes E.范明天译.配电网络规划与设计[M].北京:中国电力出版社,1999. [9] 于会萍,刘继东,程浩忠,等.电网规划方案的成本效益分析与评价研究[J].电网技术,2001,25(7):32-35. Yu Huiping,Liu Jidong,Cheng Haozhong,et al.Cost-benefit analysis and evaluation of power network planning[J].Power System Technology,2001,25(7):32-35. [10] 黄保军,史京楠.电网建设项目经济评价方法研究[J].电力建设,2003,24(2):45-48, 66. Huang Baojun,Shi Jingnan.Study on economic appraisal approach of power network construction[J].Electric Power Construction,2003,24(2):45-48, 66. [11] 罗凤章,肖峻,王成山,等.计及电价波动的电网建设项目经济评估区间法[J].电网技术,2005,29(8):20-24. Luo Fengzhang,Xiao Jun,Wang Chengshan,et al.An interval economic evaluation method for projects of power system planning considering electricity price fluctuation[J].Power System Technology,2005,29(8):20-24. [12] 张文泉,董福贵,李彦斌,等.项目后评价理论方法及其在城网改建中的应用[J].电力技术经济,2004,16(1):37-39,41. Zhang Wenquan,Dong Fugui,Li Yanbin,et al.The evaluation theory and method for completed project and its application in the improvement of urban power distribution system[J].Electric Power Technologic Economics,2004,16(1):37-39,41. [13] Charnes A,Cooper W,Rhodes E.Measuring the efficiency of decision making units[J].European Journal of Operational Research,1978,2(6):429-444. [14] 魏权龄.评价相对有效性的DEA方法—运筹学的新领域[M].北京:中国人民大学出版社,1988. [15] Paradi J,Anadol B.Valuing private companies:a DEA approach [C].Portland International Conference on Management of Engineering and Technology (PICMET),Portland,2001,1:374. [16] Golany B,Roll Y,Rybak D.Measuring efficiency of power plants in Israel by data envelopment analysis[J].IEEE Trans on Engineering Management,1994,41(3):291-301. [17] 罗道平,肖笛.数据包络分析(DEA)在电力工业的应用[J].系统工程理论与实践,1996,(4):60-66. Luo Daoping,Xiao Di.The application of data envelopment analysis (DEA) in e1ectric power industry[J].Systems Engineering- Theory&Practice,1996,(4):60-66. [18] Puneet,Chitkara.A data envelopment analysis approach to evaluation of operational inefficiencies in power generating units:a case study of Indian power plants[J].IEEE Trans on Power Systems,1999,14(2):419-425. [19] Mika G,Miki T.Comparison of productive and cost efficiencies among Japanese and US electric utilities[J].The International Journal of Management Science,1998,26(2):177-194. [20] Anil P,Feng X M,David L.Performance evaluation of electric distribution utilities based on data envelopment analysis[J].IEEE Trans on Power Systems,2002,17(3):400-405. [21] Toshiyuki,Sueyoshi.Tariff structure of Japanese electric power companies: an empirical analysis using DEA[J].European Journal of Operational Research,1999,118(2):350-374. [22] Lassila J,Viljainen S,Honkapuro S,et al.Investments in the benchmarking of the distribution network companies[C].2004 IEEE International Conference on Electric Utility Deregulation, Restructuring and Power Technologies,Hong Kong,2004,2:445-450. [23] Lo F Y,Chien C F,James T,et al.A DEA study to evaluate the relative efficiency and investigate the district reorganization of the Taiwan power company[J].IEEE Trans on Power Systems,2001,16(1):170-178.
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