[1] 张晓宇, 顾乔根, 文继锋, 等. 统一潮流控制器系统串联变压器保护设计[J]. 电力系统自动化, 2017, 41(17):72-77. Zhang Xiaoyu, Gu Qiaogen, Wen Jifeng, et al. Seriestransformer protection design in unified power flow controller system[J]. Automation of Electric Power Systems, 2017, 41(17):72-77. [2] Musunuri S, Dehnavi G. Comparison of STATCOM, SVC, TCSC, and SSSC performance in steady state voltage stability improvement[C]//North American Power Symposium 2010. New York:IEEE Press, 2010:1-7. [3] Brissette A, Maksimovic D, Levron Y. Distributed series static compensator deployment using a linearized transmission system model[J]. IEEE Transactions on Power Delivery, 2015, 30(3):1269-1277. [4] Divan D M, Brumsickle W E, Schneider R S, et al. A distributed static series compensator system for realizing active power flow control on existing power lines[J]. IEEE Transactions on Power Delivery, 2007, 22(1):642-649. [5] 唐爱红, 卢俊, 宣俭, 等. 分布式潮流控制器对系统功率控制的研究[J]. 电力系统保护与控制, 2012, 40(16):15-20, 26. Tang Aihong, Lu Jun, Xuan Jian, et al. Study of the power control ability of the distributed power flow controller[J]. Power System Protection and Control, 2012, 40(16):15-20, 26. [6] 冯雅. 基于蚁群算法的分布式潮流控制器最优投切研究[D]. 武汉:武汉理工大学, 2014. [7] 袁玮. 分布式潮流控制器的控制特性研究[D]. 武汉:武汉理工大学, 2013. [8] 李顺, 唐飞, 刘涤尘, 等. 分布式潮流控制器提升最大输电能力期望和供电可靠性的效能研究[J]. 电网技术, 2018, 42(5):1573-1579. Li Shun, Tang Fei, Liu Dichen, et al. Research on efficiency of distributed power flow controller to improve expected total transfer capability and power supply reliability[J]. Power System Technology, 2018, 42(5):1573-1579. [9] 汤奕, 刘煜谦, 宁佳, 等. 基于两阶段优化的分布式潮流控制器配置方法[J]. 电力系统自动化, 2018, 42(16):141-147. Tang gi, Liu Yuqian, Ning Jia, et al. Placement method for distributed power flow controller based on two-stage optimization[J]. Automation of Electric Power Systems, 2018, 42(16):141-147. [10] 徐雨田, 刘涤尘, 黄涌, 等. 用于提高输电均衡性的DPFC优化配置方法[J]. 电力系统保护与控制, 2018, 46(9):94-102. Xu Yutian, Liu Dichen, Huang Yong, et al. DPFC optimization configuration strategy for increasing transmission equilibrium[J]. Power System Protection and Control, 2018, 46(9):94-102. [11] 赵静, 苏光添. LoRa无线网络技术分析[J]. 移动通信, 2016, 40(21):50-57. Zhao J, Su Guangtian. Analysis on LoRa wireless network technology[J]. Mobile Communications, 2016, 40(21):50-57. [12] 张娜. 基于GPRS的电力负荷管理系统的应用研究[D]. 北京:华北电力大学, 2011. [13] 张高群. 电力系统应用ZigBee技术初步研究[J]. 电子测量技术, 2008, 31(11):83-86, 107. Zhang Gaoqun. Preliminary study of application ZigBee technology in electrical power system[J]. Electronic Measurement Technology, 2008, 31(11):83-86, 107. [14] 苑津莎, 高会生, 孙逸群, 等. 电力光纤通信网的安全性评估指标体系[J]. 高电压技术, 2009, 35(4):960-964. Yuan Jinsha, Gao Huisheng, Sun Yiqun, et al. Security evaluation indicator system for electric power optical-fiber communication network[J]. High Voltage Engineering, 2009, 35(4):960-964. [15] 宋锦海, 宣筱青, 朱开阳, 等. 基于IEC 61850的安全稳定控制装置方案设计[J]. 电力系统自动化, 2010, 34(12):72-75, 80. Song Jinhai, Xuan Xiaoqing, Zhu Kaiyang, et al. Design of security and stability control device based on IEC 61850[J]. Automation of Electric Power Systems, 2010, 34(12):72-75, 80. [16] 谭文恕. 电力系统无缝通信系统体系[J]. 电力自动化设备, 2001, 21(11):1-5. Tan Wenshu. Seamless communication architecture in power systems[J]. Electric Power Automation Equipment, 2001, 21(11):1-5. |