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| Study on the Optimal Allocation of Output Transmission Capacity and Energy Storage Capacity of Wind Farm based on CVaR |
| Wang Yanbin1, Ye Rong2, Lin Zhangsui2, Jiang Yuewen1 |
1. College of Electrical Engineering and Automation, Fuzhou University, Fuzhou 350108;
2. Economic Research Institute of State Grid Fujian Electric Power Company, Fuzhou 350003 |
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Abstract Large scale wind power development helps to alleviate the shortage of energy, however, the wind power output fluctuation is large and its energy density is low. In the planning of outlet capacity of wind power generation, the influence of wind power on the whole wave characteristics must be considered. In this paper, in order to stabilize the wind power as the goal, based on the principle of low pass filter, and the use of storage allocation wind power output power, at a certain confidence level, the allocation based on CVaR of wind farm group transmission capacity and storage capacity are optimized. The example shows that the proposed model can not only reduce the transmission capacity of the investment, and decision makers can be based on the abandoned wind power and punishment quantity of selecting reasonable levels of confidence, and optimize the allocation of the output transmission capacity and storage capacity.
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Published: 06 December 2017
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| Cite this article: |
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Wang Yanbin,Ye Rong,Lin Zhangsui等. Study on the Optimal Allocation of Output Transmission Capacity and Energy Storage Capacity of Wind Farm based on CVaR[J]. Electrical Engineering, 2017, 18(11): 69-74.
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| URL: |
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http://dqjs.cesmedia.cn/EN/Y2017/V18/I11/69
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[1] 刘燕华, 田茹, 张东英, 等. 风电出力平滑效应的分析与应用[J]. 电网技术, 2013, 37(4): 987-991.
[2] 迟永宁, 刘燕华, 王伟胜, 等. 风电接入对电力系统的影响[J]. 电网技术, 2007, 31(3): 77-81.
[3] 刘新东, 方科, 陈焕远, 等. 利用合理弃风提高大规模风电消纳能力的理论研究[J]. 电力系统保护与控制, 2012, 40(6): 35-39.
[4] 孙荣富, 张涛, 梁吉. 电网接纳风电能力的评估及应用[J]. 电力系统自动化, 2011, 35(4): 70-76.
[5] 冯泽深, 张曙光, 郭雁珩, 等. 东北地区风电“弃风”现状及分析[J]. 电气技术, 2014, 15(2): 1-3.
[6] 文晶, 刘文颖, 谢昶, 等. 计及风电消纳效益的电力系统源荷协调二层优化模型[J]. 电工技术学报, 2015, 30(8): 247-256.
[7] 刘洪斌, 王振霞, 费伟东, 等. 风电与火电联合发电控制系统研究[J]. 电气技术, 2015, 16(9): 25-29.
[8] 吴丹岳, 李兆祥, 邵振国. 基于风速-功率拟合与区间潮流的风电场电压波动预测[J]. 电气技术, 2016, 17(7): 7-12, 35.
[9] 穆钢, 崔杨, 严干贵. 确定风电场群功率汇聚外送输电容量的静态综合优化方法[J]. 中国电机工程学报, 2011(1): 15-19.
[10] 杨玉龙, 李军徽, 朱星旭. 基于储能系统提高风电外送能力的经济性研究[J]. 储能科学与技术, 2014, 3(1): 47-52.
[11] Zheng Yu, Dong Zhaoyang, Luo Fengji, et al. Optimal allocation of energy storage system for risk mitigation of DISCOs with high renewable penetrations[J]. IEEE Transactions on Power Systems, 2014, 29(1): 212-220.
[12] 林少伯, 韩民晓, 赵国鹏, 等. 基于随机预测误差的分布式光伏配网储能系统容量配置方法[J]. 中国电机工程学报, 2013, 33(4): 25-33, 前插4.
[13] 邹见效, 戴碧蓉, 彭超, 等. 基于荷电状态分级优化的混合储能风电功率平抑方法[C]//中国电机工程学会电力系统自动化专业委员会三届三次会议暨2013年学术交流会论文集, 南京, 2013.
[14] 吴雄, 王秀丽, 李骏, 等. 风电储能混合系统的联合调度模型及求解[J]. 中国电机工程学报, 2013, 33(13): 10-17, 前插2.
[15] 向育鹏, 卫志农, 孙国强, 等. 基于全寿命周期成本的配电网蓄电池储能系统的优化配置[J]. 电网技术, 2015, 39(1): 264-270.
[16] 娄素华, 易林, 吴耀武, 等. 基于可变寿命模型的电池储能容量优化配置[J]. 电工技术学报, 2015, 30(4): 265-271.
[17] 张峰, 张熙, 张利, 等. 区域风电场群储能电站的优化配置及运行策略[J]. 电工技术学报, 2016, 31(14): 49-57.
[18] 黄杨, 胡伟, 闵勇, 等. 计及风险备用的大规模风储联合系统广域协调调度[J]. 电力系统自动化, 2014, 38(9): 41-47.
[19] Khodabakhsh R, Sirouspour S. Optimal control of energy storage in a microgrid by minimizing conditional Value-at-Risk[J]. IEEE Transactions on Sustainable Energy, 2016, 7(3): 1264-1273. |
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2017, Vol. 18 
