含大规模风电场的电力系统运行风险评估
Operational Risk Assessment of Power System Including Large-Scale Wind Farms
DOI: 10.12677/TDET.2013.24014, PDF, HTML, 下载: 3,094  浏览: 9,579 
作者: 陈得治, 宋云亭:中国电力科学研究院,北京;黄昀思, 高忠旭, 毛安家:华北电力大学电气与电子工程学院,北京
关键词: 风电场电力系统运行风险评估 Wind Farm; Power System; Operational Risk Assessment
摘要: 由于风能具有随机性、间歇性与波动性等特点,致使当大规模风电场接入电力系统后,会给系统造成不可忽视的负面影响,从而给电网的安全稳定运行带来风险。本文基于运行风险评估框架理论体系,建立了相应的运行风险评估指标体系,分别从局部级和系统级两个层面反映系统的短期运行风险水平。最后,基于IEEE-RTS79验证上述所建评估框架理论体系的正确性。
Abstract: Due to the randomness, intermittent and fluctuation characteristics of wind energy, the negative effects brought by large-scale wind farms when they are connected to the power system cannot be neglected. Large scale wind farm connected to power grid will bring operational risk to the grid. Based on the theoretical framework of operational risk assessment, this paper established the corresponding operational risk assessment index system, which reflects the system’s short-term level of the operational risk from the local and system level respectively. At last, the accuracy of the established assessment index system is proved based on the IEEE-RTS79 system.

文章引用:陈得治, 宋云亭, 黄昀思, 高忠旭, 毛安家. 含大规模风电场的电力系统运行风险评估[J]. 输配电工程与技术, 2013, 2(4): 81-86. http://dx.doi.org/10.12677/TDET.2013.24014

参考文献

[1] 肖创英, 汪宁勃, 陆晶, 等 (2010) 甘肃酒泉风电出力特性分析. 电力系统自动化, 34, 64-67.
[2] 侯佑华, 房大中, 齐军, 等 (2010) 大规模风电入网的有功功率波动特性分析及发电计划仿真. 电网技术, 24, 60-66.
[3] 孙荣富, 张涛, 梁吉 (2011) 电网接纳风电能力的评估及应用. 电力系统自动化, 35, 70-75.
[4] 于大洋, 韩学山, 梁军, 等 (2011) 基于NASA地球观测数据库的区域风电功率波动特性分析. 电力系统自动化, 35, 77- 81.
[5] 孙春顺, 王耀南, 李欣然 (2009) 水电–风电系统联合运行研究. 太阳能学报, 30, 232-236.
[6] 张宁, 周天睿, 段长刚, 等 (2010) 大规模风电场接入对电力系统调峰的影响. 电网技术, 34, 152-158.
[7] 辛颂旭, 白建华, 郭雁珩 (2010) 甘肃酒泉风电特性研究. 能源技术经济, 22, 16-21.
[8] 白雪飞, 王丽宏, 杜荣华 (2010) 风电大规模接入对蒙西电网调峰能力的影响. 内蒙古电力技术, 28, 1-3.
[9] 胡雪松, 孙才行, 刘刃, 等 (2010) 采用飞轮储能的永磁直驱风电机组有功平滑控制策略. 电力系统自动化, 34, 79-83.
[10] Abbey, C. and Joos, G. (2007) Super capacitor energy storage for wind energy applications. IEEE Transactions on Industry Ap- plications, 43, 769-776.
[11] 静铁岩 (2011) 大规模风电并网条件下的电力系统有功功率平衡理论研究. 博士学位论文, 大连理工大学, 大连.
[12] 白建华, 辛颂旭, 贾德香, 等 (2010) 中国风电开发消纳及输送相关重大问题研究. 电网与清洁能源, 26, 14-17.
[13] Kempton, W. and Tomic, J. (2005) Vehicle-to-grid power im- plementation: From stabilizing the grid to supporting large-scale renewable energy. Journal of Power Sources, 144, 280-294.
[14] Hodge, B.S., Huang, S.S., Pekny, J.F., et al. (2010) The effects of Vehicle-to-Grid systems on wind power integration in Cali- fornia. Computer Aided Chemical Engineering, 28, 1039-1044.
[15] Feijoo, A.E. and Cidras, J. (2000) Modeling of wind farm in the load flow analysis. IEEE Transactions on Power Systems, 15, 110-115.
[16] 刘其辉 (2005) 变速恒频风力发电系统运行与控制研究. 博士学位论文, 浙江大学, 杭州.

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