| [1] | 王建军,程倩. 核电机组参与电网调峰的方式研究 [J]. 华东电力,2012,40(8):1392-1395. WANGJ J,CHENGQ. Methods of peak regulation through nuclear power units [J]. East China Electric Power,2012,40(8):1392-1395. |
| [2] | 陈汉雄,郑勇. 大容量核电机组接入川渝电网适应性及参与系统调峰研究 [J]. 中国电力,2011,44(3):1-5. CHENH X,ZHENGY. Adaptability of large-capacity nuclear power plants accessing Sichuan and Chongqing grids and ability of participating in system peak-load regulation [J]. Electric Power,2011,44(3):1-5. |
| [3] | 陈雷,卢斯煜. 风电场出力特性与集群效应分析方法研究 [J]. 南方能源建设,2017,4(1):31-37. CHENL,LUS Y. Research on the analysis method for wind power generating output characteristic and cluster effects [J]. Southern Energy Construction,2017,4(1):31-37. |
| [4] | 彭波,余文奇,刘云. 国外核电机组参与系统调峰情况分析 [J].南方电网技术,2011,5(3):23-26. PENGB,YUW Q,LIUY. Overview of foreign nuclear power plants in load-following [J]. Southern Power System Technology,2011,5(3):23-26. |
| [5] | 叶鹏,马晓东,朱钰,等. 核电机组参与电网联合调峰策略研究综述 [J]. 东北电力技术,2014,35(9):55-59+62. YEP,MAX D,ZHUY,et al. A research summary on combined peaking load strategies of nuclear power plant [J]. Northeast Electric Power Technology,2014,35(9):55-59+62. |
| [6] | 马晓东. 核电参与电网调峰的运行策略研究 [D]. 沈阳:沈阳工业大学,2015. |
| [7] | 马习朋. 探讨大型压水堆核电机组参与电网中间负荷调峰 [J]. 现代电力,2007(4):28-33. MAX P. Large-scale PWR power plants participating in peak-load regulation of grid middle load [J]. Modern Electric Power,2007(4):28-33. |
| [8] | 郑秀波,刘云,孙景强. 广东电网核电机组调峰分析 [J]. 电力技术,2010,19(Z2):82-85+81. ZHENGX B,LIUY,SUNJ Q. The peak load regulation of nuclear power [J]. Electric Power Technology,2010,19(Z2):82-85+81. |
| [9] | 宋卓然,商文颖,宋颖巍,等. 核电发展现状及调峰可行性分析 [J]. 东北电力技术,2015,36(5):40-44. SONGZ R,SHANGW Y,SONGY W,et al. Development of nuclear power and analysis on peak shaving [J]. Northeast Electric Power Technology,2015,36(5):40-44. |
| [10] | 曾森. 核电机组参与电网调峰的经济性分析 [D]. 北京:华北电力大学(北京),2016. |
| [11] | 陈世和,方彦军,方源. 分时电价下核电机组调峰的经济性探讨 [J]. 广东电力,2012,25(4):1-4+15. CHENS H,FANGY J,FANGY. Discussion on economy of peak shaving of nuclear power units in tou price [J]. Guangdong Electric Power,2012,25(4):1-4+15. |
| [12] | 傅旭,黄明良. 基于电力平衡的西北电网核电接纳能力分析 [J].电网与清洁能源,2011,27(10):60-65. FUX,HUANGM L. Analysis on the acceptance capacity of nuclear power integrated with northwest power grid based on power balance [J]. Power System and Clean Energy,2011,27(10):60-65. |
| [13] | 王志磊. 含大规模新能源的电力系统短期优化运行研究 [D]. 武汉:华中科技大学,2014. |
| [14] | 张滋华. 含大规模风电电力系统中长期优化运行研究 [D]. 武汉:华中科技大学,2013. |
| [15] | 卢洵,左郑敏,林勇,等. 广东“十三五”电源调峰联合运行策略优化 [J]. 广东电力,2018,31(7):98-105. LUX,ZUOZ M,LINY,et al. Strategy optimization for combined operation of power source and peak load regulation in the 13th five-year plan period of guangdong province [J]. Guangdong Electric Power,2018,31(7):98-105. |
| [16] | 程鑫,卢洵,樊扬,等. 广东调峰电源调用序位研究 [J]. 广东电力,2018(5):56-63. CHENGX,LUX,FANY,et al. Research on dispatching order of peak load regulation power source in Guangdong [J]. Guangdong Electric Power,2018(5):56-63. |
| [17] | 杨柳,吴鸿亮,门锟. 南方电网节能与经济运行评价方法 [J]. 电力系统自动化,2014,38(17):31-38,86. YANGL,WUH L,MEN K. An energy saving and economy operation evaluation method for China Southern Power Grid [J]. Automation of Electric Power Systems,2014,38(17):31-38,86. |
| [18] | 吴鸿亮,杜尔顺,门锟,等. 面向低碳目标的电力系统节能与经济运行评价系统 [J]. 电网技术,2015,39(5):1179-1185. WUH L,DUE S,MEN K,et al. A low-carbon oriented energy-saving and economic operation evaluation system [J]. Power System Technology,2015,39(5):1179-1185. |
| [19] | 李驰. 基于波动特性的新能源出力时间序列建模方法研究 [D]. 北京:中国电力科学研究院,2015. |
| [20] | 刘纯,吕振华,黄越辉,等. 长时间尺度风电出力时间序列建模新方法研究 [J]. 电力系统保护与控制,2013,41(1):7-13. LIUC,LVZ H,HUANGY H,et al. A new method to simulate wind power time series of large time scale [J]. Power System Protection and Control,2013,41(1):7-13. |
| [21] | WUY W,LOUS H,LUS Y. A model for power system interconnection planning under low-carbon economy with CO emission constraints [J]. IEEE Trans. Sustain. Energy,2011,2(3): 205-214. |
| [22] | LUS Y,LOUS H,WUY W,et al. Power system economic dispatch under low-carbon economy with carbon capture plants considered [J]. IET Gener., Transm., Distrib., 2013,7(9):991-1001. |