Page 66 - 中国仿真学会通讯
P. 66

vehicle charging infrastructures [ J] . Automation of Electric Power Systems, 2015, 39(9) : 10-18( in Chinese) .
[67]   王辉, 王贵斌, 赵俊华, 等. 考虑交通网络流量的电动汽车充电站规划[ J] . 电力系统自动化, 2013, 37

         (13) : 63-69, 98.
         Wang Hui, Wang Guibin, Zhao Junhua, et al. Optimal planning for electric vehicle charging stations considering
         traffic network flows[ J] . Automation of Electric Power Systems, 2013, 37(13) : 63-69, 98( in Chinese) .
[68]   Sheikhi A, Ranjbar A M, Safe F. A novel method to determine the best size of CHP for an energy hub system
         [ C] / / 2011 2nd International Conference on Electric Power and Energy Conversion Systems ( EPECS) . Sharjah:
         IEEE, 2011: 1-7.
[69]   Sheikhi A, Rayati M, Ranjbar A M. Energy Hub optimal sizing in the smart grid: machine learning approach
         [C] / / 2015 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference ( ISGT) . Washington,
         DC: IEEE, 2015: 1-5.
[70]   Zhang X J, Karady G G, Ariaratnam S T. Optimal allocation of CHP - based distributed generation on urban
         energy distribution networks[ J] . IEEE Transactions on Sustainable Energy, 2014, 5(1) : 246-253.
[71]   Saldarriaga C A, Hincapie R A, Salazar H. A holistic approach for planning natural gas and electricity
         distribution networks[ J] . IEEE Transactions on Power Systems, 2013, 28(4) : 4052-4063.
[72]   Shen Xinwei, Han Yingduo, Zhu Shouzhen, et al . Comprehensive power-supply planning for active distribution
         system considering cooling, heating and power load balance [ J] . Journal of Modern Power Systems and Clean
         Energy, 2015, 3(4) : 485-493.
[73]   Guo Li, Liu Wenjian, Cai Jiejin, et al. A two-stage optimal planning and design method for combined cooling,
         heat and power microgrid system[ J] . Energy Conversion and Management, 2013, 74: 433-445.
[74]   管霖, 陈鹏, 唐宗顺, 等. 考虑冷热电存储的区域综合能源站优化设计方法[ J] . 电网技术, 2016, 40
         (10) : 2934-2941
         Guan Lin, Chen Peng, Tang Zongshun, et al. Integrated energy station design considering cold and heat storage
         [ J] . Power System Technology, 2016, 40(10) : 2934-2941( in Chinese) .
[75]   荆有印, 白鹤, 张建良. 太阳能冷热电联供系统的多目标优化设计与运行策略分析[ J] . 中国电机工程学
         报, 2012, 32(20) : 82-87.
         Jing Youyin, Bai He, Zhang Jianliang. Multi -objective optimization design and operation strategy analysis of a
         solar combined cooling heating and power system [ J ] . Proceedings of the CSEE, 2012, 32 ( 20 ) : 82 - 87
         ( inChinese) .
[76]   Bahrami S, Safe F. A financial approach to evaluate an optimized combined cooling, heat and power system [ J] .
         Energy and Power Engineering, 2013, 5(5) : 352-362.
[77]   Ebrahimi M, Keshavarz A. Sizing the prime mover of a residential micro - combined cooling heating and power
         ( CCHP) system by multi-criteria sizing method for different climates[ J] . Energy, 2013, 54: 291-301
[78]   Jayasekara S, Halgamuge S K, Attalage R A, et al. Optimum sizing and tracking of combined cooling heating
         and power systems for bulk energy consumers [ J] . Applied Energy, 2014, 118: 124-34.
[79]   赵峰, 张承慧, 孙波, 等. 冷热电联供系统的三级协同整体优化设计方法[ J] . 中国电机工程学报, 2015,
         35(15) : 3785-3793.
         Zhao Feng, Zhang Chenghui, Sun Bo, et al. Three - stage collaborative global optimization design method of
         combined cooling heating and power[ J] . Proceedings of the CSEE, 2015, 35(15) : 3785-3793( in Chinese) .
[80]   Wouters C, Fraga E S, James A M. An energy integrated multi - micro - grid MILP ( mixed - integer linear
         programming) approach for residential distributed energy system planning - A South Australian case - study [ J] .
         Energy, 2015, 85: 30-44.
[81]   吴聪, 唐巍, 白牧可, 等. 基于能源路由器的用户侧能源互联网规划[ J] . 电力系统自动化, 2017, 41
         (4) : 20-28.
         Wu Cong, Tang Wei, Bai Muke, et al. Energy router based planning of energy internet at user side [ J ] .

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