Kornelakis A.Multi objective particle swarm optimization for the optimal design of photovoltaic grid-connected systems[J].Solar Energy,2010,84(12):2022-2033.
[2]
马明.分布式电源对配电网网损影响及配置的研究[D].南京:南京理工大学,2007.
[3]
Dai W.Multi-objective locating and sizing optimization of distributed generation[C]//Environment and Electrical Engineering(EEEIC).Wroclaw,Poland:IEEE,2013:118-123.
[4]
Li R,Ma H,Wang F,et al.Game optimization theory and application in distribution system expansion planning, including distributed generation[J].Energies,2013,6(2):1101-1124.
[5]
Javadian S A M,Massaeli M.Environmental benefits of DGs and comparing their generation costs with thermal power plants considering production pollution on human health[J].Indian Journal of Science and Technology,2011,4(10):1290-1294.
[6]
郑漳华,艾芊,顾承红,等.考虑环境因素的分布式发电多目标优化配置[J].中国电机工程学报,2009,29(13):23-28. Zheng Zhanghua,Ai Qian,Gu Chenghong,et al.Multi-objective allocation of distributed generation considering environmental factor[J].Proceedings of the CSEE,2009,29(13):23-28(in Chinese).
[7]
曾鸣,杜楠,张鲲,等.基于多目标静态模糊模型的分布式电源规划[J].电网技术,2013,37(4):954-959. Zeng Ming,Du Nan,Zhang Kun,et al.Distributed generation planning based on multiobjective static fuzzy model[J].Power System Technology,2013,37(4):954-959(in Chinese).
[8]
Hosseini R K,Kazemzadeh R.Optimal DG allocation by extending an analytical method to minimize losses in radial distribution systems[C]//Electrical Engineering (ICEE).Tehran,Iran:IEEE,2011:1-6.
[9]
苏小玲,韩民晓,赵正奎,等.配电网中分布式电源最大准入容量分析[J].电网技术,2012,36(10):87-92. Su Xiaoling,Han Minxiao,Zhao Zhengkui,et al.Research on maximum capacity of grid-connected distributed generation in distribution network[J].Power System Technology,2012,36(10):87-92(in Chinese).
[10]
Katsigiannis Y A,Georgilakis P S,Karapidakis E S.Multiobjective genetic algorithm solution to the optimum economic and environmental performance problem of small autonomous hybrid power systems with renewables[J].Renewable Power Generation,IET,2010,4(5):404-419.
[11]
Abou El-Ela A A,Allam S M,Shatla M M.Maximal optimal benefits of distributed generation using genetic algorithms[J].Electric Power Systems Research,2010,80(7):869-877.
[12]
柳睿,杨镜,程浩忠,等.分布式电源并网的综合评价[J].电力系统及其自动化学报,2013,25(1):34-39. Liu Rui,Yang Jing,Cheng Haozhong,et al.Comprehensive evaluation of grid-connected distributed generation[J].Proceedings of the CSU-EPSA,2013,25(1):34-39(in Chinese).
[13]
鲍薇,胡学浩,何国庆,等.分布式电源并网标准研究[J].电网技术,2012,36(11):46-52. Bao Wei,Hu Xuehao,He Guoqing,et al.Study on standard for grid-Integration of distributed resources[J].Power System Technology,2012,36(11):46-52(in Chinese).
[14]
雷金勇,谢俊,甘德强.分布式发电供能系统能量优化及节能减排效益分析[J].电力系统自动化,2009,33(23):29-36. Lei Jinyong,Xi Jun,Gan Deqiang.Optimization of distributed energy system and benefit analysis of energy saving and emission reduction[J].Automation of Electric Power Systems,2009,33(23):29-36(in Chinese).
[15]
王兆宇,艾芊.智能配电网中微电网的多目标优化配置[J].电网技术,2012,36(8):199-203. Wang Zhaoyu,Ai Qian.Multi-objective allocation of microgrid in smart distribution network[J].Power System Technology,2012,36(8):199-203(in Chinese).
[16]
Al Kaabi S S,Zeineldin H H,Khadkikar V.Planning active distribution networks considering multi-DG configurations[J].IEEE Transactions on Power Systems,2014,29(2):785-793.
[17]
芦晶晶,赵渊,赵勇帅,等.含分布式电源配电网可靠性评估的点估计法[J].电网技术,2013,37(8):2250-2257. Lu Jingjing,Zhao Yuan,Zhao Yongshuai,et al.A point estimation method for reliability evaluation of distribution network with distributed generation[J].Power System Technology,2013,37(8):2250-2257(in Chinese).
[18]
麻秀范,崔换君.改进遗传算法在含分布式电源的配电网规划中的应用[J].电工技术学报,2011,26(3):175-181. Ma Xiufan,Cui Huanjun.An improved genetic algorithm for distribution network planning with distributed generation[J].Transactions of China Electrotechnical Society,2011,26(3):175-181(in Chinese).
[19]
Carter S.Emissions from distributed generation[EB/OL].California,California Energy Commission Sitting Committee Workshop,2000[2013-11-20].http://www.distributed-generation.com/Library/ Emissions.PDF.
[20]
El-Khattam W,Hegazy Y G,Salama M M A.An integrated distributed generation optimization model for distribution system planning[J].IEEE Transactions on Power Systems,2005,20(2):1158-1165.
[21]
王瑞琪,李珂,张承慧,等.基于多目标混沌量子遗传算法的分布式电源规划[J].电网技术,2011,35(12):183-189. Wang Ruiqi,Li Ke,Zhang Chenghui,et al.Distributed generation planning based on multi-objective chaotic quantum genetic algorithm[J].Power System Technology,2011,35(12):183-189(in Chinese).
[22]
Shi Y,Eberhart R.A modified particle swarm optimizer[C]//Evolutionary Computation Proceedings.Anchorage,AK:IEEE,1998:69-73.
[23]
Agrawal S,Dashora Y,Tiwari M K,et al.Interactive particle swarm:a pareto-ddaptive metaheuristic to multi objective optimization[J].IEEE Transactions on Systems,Man and Cyberentics,2008,38(2):258-277.
[24]
Knowles J,Corne D.Properties of an adaptive archiving algorithm for storing nondominated vectors[J].IEEE Transactions on Evolutionary Computation,2003,7(2):100-116.
[25]
Farjah E,Bornapour M,Niknam T,et al.Placement of combined heat, power and hydrogen production fuel cell power plants in a distribution network[J].Energies,2012,5(3):790-814.
[26]
魏学好,周浩.中国火力发电行业减排污染物的环境价值标准估算[J].环境科学研究,2003,16(1):53-56. Wei Xuehao,Zhou Hao.Evaluating the environmental value schedule of pollutants mitigated in China thermal power industry[J].Research of Environmental Sciences,2003,16(1):53-56(in Chinese).
[27]
张娜,蔡睿贤.SO2、NOx与CO2排气罚款的应有数量级[J].中国电机工程学报,1997,17(4):286-288. Zhang Na,Cai Ruixian.The proper order of magnitude of penalty for pollutant emission[J].Proceedings of the CSEE,1997,17(4):286-288(in Chinese).
