1. 毕业设计（论文）的内容和要求

课题简介： 由于风电的随机性、波动性与反调峰性等特点,使得大规模风电并网时对电力系统的安全、稳定运行提出了愈加尖锐的挑战,因此常常出现弃风现象以维持电网的稳定性,以至于造成了风资源的严重浪费。

由于传统电力系统主要以燃煤机组为主,而燃煤机组的调节性能不足,规模化风电接入时,需要增加灵活性电源以满足电力系统运行安全性和经济性的要求。

本课题针对以上问题,将储能系统和可中断负荷这类灵活性电源负荷考虑到电源规划中,用以提高系统调度运行的灵活性。

2. 参考文献

[1] Zhan Y, Zheng QP, Wang J, et al. Generation Expansion Planning with Large Amounts of Wind Power via Decision-Dependent Stochastic Programming[J]. IEEE Transactions on Power Systems, 2016,PP(99): 1-1. [2] 邢万里. 2030 年我国新能源发展优先序列研究[D]: 中国地质大学(北京), 2015. [3] Council GWE. Global wind report: Annual market update 2011[J]. Global Wind Energy Council: Brussels, Belgium, 2012. [4] 高赐威, 吴天婴, 何叶, et al. 考虑风电接入的电源电网协调规划[J]. 电力系统自动化, 2012,(22): 30-35. [5] Ngoc PDN, Pham TTH, Bacha S, et al. Optimal operation for a wind-hydro power plant to participate to ancillary services: proceedings of the 2009 IEEE International Conference on Industrial Technology, 10-13 Feb. 2009, 2009[C]. [6] Li C, Dong Z, Chen G, et al. Flexible transmission expansion planning associated with large-scale wind farms integration considering demand response[J]. IET Generation, Transmission Distribution, 2015,9(15): 2276-2283. [7] Zhang X, Yuan Y, Wu B, et al. A novel algorithm for power system planning associated with large-scale wind farms in deregulated environment: proceedings of the 2011 4th International Conference on Electric Utility Deregulation and Restructuring and Power Technologies (DRPT), 6-9 July 2011, 2011[C]. [8] Akhil A, Swaminathan S, Sen RK, Cost analysis of energy storage systems for electric utility applications: Sandia National Labs., Albuquerque, NM (United States), 1997. [9] Atwa YM, El-Saadany EF. Optimal Allocation of ESS in Distribution Systems With a High Penetration of Wind Energy[J]. IEEE Transactions on Power Systems, 2010,25(4): 1815-1822. [10] Zhang N, Kang C, Kirschen DS, et al. Planning Pumped Storage Capacity for Wind Power Integration[J]. IEEE Transactions on Sustainable Energy, 2013,4(2): 393-401. [11] Qin M, Chan KW, Chung CY, et al. Optimal planning and operation of energy storage systems in radial networks for wind power integration with reserve support[J]. IET Generation, Transmission Distribution, 2016,10(8): 2019-2025. [12] Hozouri MA, Abbaspour A, Fotuhi-Firuzabad M, et al. On the Use of Pumped Storage for Wind Energy Maximization in Transmission-Constrained Power Systems[J]. IEEE Transactions on Power Systems, 2015,30(2): 1017-1025.

3. 毕业设计（论文）进程安排

2018.12.15~2018.12.21 启动阶段，确定课题及任务, 查阅文献; 2018.12.22~2019.01.18 开题阶段，资料查阅，撰写开题报告，进行开题答辩，英文翻译 2019.02.25~2018.06.03 实施阶段进行课题的实验、设计、调研及结果的处理与分析等，准备毕业论文 2019年5月份左右 中期检查，中期总结报告撰写、实验总结，检查日期待定 2019.06.14之前 答辩阶段，毕业论文撰写及提交，毕业论文答辩，答辩日期待定 2019.06.15~2018.07.12 评价阶段，总结、归档