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Using supplementary controller of static var compensator (SVC) is an effective way for enhancing the transient stability of an interconnected power system. In conventional controller design, SVC is usually considered as a first-order inertial model with known parameters. In this paper, a nonlinear controller design method based on adaptive sliding mode control is proposed to design a SVC supplementary controller. The imprecise of the model and the external disturbances such as time-delay are taking into consideration in the SVC model, and the interconnected system with SVC is considered by the center of inertia model. Then the SVC supplementary controller is designed based on the adaptive sliding control theory to improve the transient stability of the power system. Finally, the effectiveness of the proposed controller is verified using two simple systems. Simulation results show that the designed SVC sliding mode controller is robust to the variation of operation conditions and time-delays, and it has a better performance in enhancing the system stability as compared with the conventional SVC controller.
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Keywords:
- transient stability /
- sliding mode control /
- parameter adaptive /
- time-delay
[1] Wang Z H, Shen F, Wu T Z 2000 Auto. Elect. Power Syst. 24 1 (in Chinese) [王仲鸿, 沈斐, 吴铁铮2000电力系统自动化 24 1]
[2] Zhang X P, Rehtanz C, Pal B 2006 Flexible AC Transmission Systems: Modeling and Control (Berlin: Springer Verlag) pp2-7
[3] Li S P, Liu G Y 2006 Static Reactive Power Compensation Technology (Beijing: China Electric Power Press) pp22-30 (in Chinese) [粟时平, 刘桂英2006静止无功功率补偿技术(北京: 中国电力出版社)第22–30页]
[4] Jiang Q Y, Zhang P X, Cao Y J 2006 Proc. CSEE 26 82 (in Chinese) [江全元, 张鹏翔, 曹一家 2006 中国电机工程学报 26 82]
[5] Liu J, Li X Y, Tang G F 2008 Proc. CSEE 28 12 (in Chinese) [刘隽, 李兴源, 汤广福2008中国电机工程学报 28 12]
[6] Chang Y, Xu Z 2006 Trans. China Electrotech. Soc. 21 40 (in Chinese) [常勇, 徐政2006电工技术学报 21 40]
[7] Ma Y J, Zhou X S 2003 Proce. CSEE 23 84 (in Chinese) [马幼捷, 周雪松2003中国电机工程学报23 84]
[8] Wang Y, Chen H, Zhou R 2000 Int. J. Electr. Power Energy Sys. 22 463
[9] Fu J, Zhao J, Dimirovsk G M 2006 Proc. CSEE 26 7 (in Chinese) [付俊, 赵军, 乔治·迪米罗夫斯基 2006 中国电机工程学报 26 7]
[10] Hingorani N G, Gyugyi L 2000 Understanding FACTS-Concept and Technology of Flexible AC Transmission Systems (Piscataway: IEEE Press) pp68-69
[11] Tan X, Tong L, Yin Z 1998 International Conference on Power System Technology Beijing, China, 1998 p672
[12] Itkis U 1976 Control Systems of Variable Structure (New York: Wiley) pp32-40
[13] Huang L L, Qi X 2013 Acta Phys. Sin. 62 080507 (in Chinese) [黄丽莲, 齐雪2013 62 080507]
[14] Qi D L, Wang Q, Yang J 2011 Chin. Phys. B 20 100505
[15] Kong C C, Chen S H 2009 Chin. Phys. B 18 91
[16] Lou X Y, Cui B T 2008 Chin. Phys. B 17 4434
[17] Hung J Y, Gao W, Hung J C 1993 IEEE Trans. Ind. Electron. 40 2
[18] Ni Y X, Chen S S, Zhang B L 2002 Dynamic Power System Theory and Analysis (Beijing: Tsinghua University Press) pp188-190 (in Chinese) [倪以信, 陈寿孙, 张宝霖2002动态电力系统的理论和分析(北京: 清华大学出版社)第188–190页]
[19] Farsangi M M, Hossein N, Song Y H 2007 IEEE Trans. Power Syst. 22 1061
[20] Liu X L, Wang X 2007 J. Zhengzhou Univ. (Eng. Sci.) 28 87 (in Chinese) [刘宪林, 王鑫 2007 郑州大学学报(工学版) 28 87]
[21] Anderson P M, Fouad A A 1977 Power System Control and Stability (Ames: the Iowa State University Press) pp152-158
[22] Xue A C, Shen C, Mei S W 2006 Auto. Electr. Power Syst. 30 1 (in Chinese) [薛安成, 沈沉, 梅生伟 2006 电力系统自动化 30 1]
[23] Pan X P 2008 Ph. D. Dissertation (Hangzhou: Zhejiang University) (in Chinese) [潘学萍2008博士学位论文(杭州: 浙江大学)]
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[1] Wang Z H, Shen F, Wu T Z 2000 Auto. Elect. Power Syst. 24 1 (in Chinese) [王仲鸿, 沈斐, 吴铁铮2000电力系统自动化 24 1]
[2] Zhang X P, Rehtanz C, Pal B 2006 Flexible AC Transmission Systems: Modeling and Control (Berlin: Springer Verlag) pp2-7
[3] Li S P, Liu G Y 2006 Static Reactive Power Compensation Technology (Beijing: China Electric Power Press) pp22-30 (in Chinese) [粟时平, 刘桂英2006静止无功功率补偿技术(北京: 中国电力出版社)第22–30页]
[4] Jiang Q Y, Zhang P X, Cao Y J 2006 Proc. CSEE 26 82 (in Chinese) [江全元, 张鹏翔, 曹一家 2006 中国电机工程学报 26 82]
[5] Liu J, Li X Y, Tang G F 2008 Proc. CSEE 28 12 (in Chinese) [刘隽, 李兴源, 汤广福2008中国电机工程学报 28 12]
[6] Chang Y, Xu Z 2006 Trans. China Electrotech. Soc. 21 40 (in Chinese) [常勇, 徐政2006电工技术学报 21 40]
[7] Ma Y J, Zhou X S 2003 Proce. CSEE 23 84 (in Chinese) [马幼捷, 周雪松2003中国电机工程学报23 84]
[8] Wang Y, Chen H, Zhou R 2000 Int. J. Electr. Power Energy Sys. 22 463
[9] Fu J, Zhao J, Dimirovsk G M 2006 Proc. CSEE 26 7 (in Chinese) [付俊, 赵军, 乔治·迪米罗夫斯基 2006 中国电机工程学报 26 7]
[10] Hingorani N G, Gyugyi L 2000 Understanding FACTS-Concept and Technology of Flexible AC Transmission Systems (Piscataway: IEEE Press) pp68-69
[11] Tan X, Tong L, Yin Z 1998 International Conference on Power System Technology Beijing, China, 1998 p672
[12] Itkis U 1976 Control Systems of Variable Structure (New York: Wiley) pp32-40
[13] Huang L L, Qi X 2013 Acta Phys. Sin. 62 080507 (in Chinese) [黄丽莲, 齐雪2013 62 080507]
[14] Qi D L, Wang Q, Yang J 2011 Chin. Phys. B 20 100505
[15] Kong C C, Chen S H 2009 Chin. Phys. B 18 91
[16] Lou X Y, Cui B T 2008 Chin. Phys. B 17 4434
[17] Hung J Y, Gao W, Hung J C 1993 IEEE Trans. Ind. Electron. 40 2
[18] Ni Y X, Chen S S, Zhang B L 2002 Dynamic Power System Theory and Analysis (Beijing: Tsinghua University Press) pp188-190 (in Chinese) [倪以信, 陈寿孙, 张宝霖2002动态电力系统的理论和分析(北京: 清华大学出版社)第188–190页]
[19] Farsangi M M, Hossein N, Song Y H 2007 IEEE Trans. Power Syst. 22 1061
[20] Liu X L, Wang X 2007 J. Zhengzhou Univ. (Eng. Sci.) 28 87 (in Chinese) [刘宪林, 王鑫 2007 郑州大学学报(工学版) 28 87]
[21] Anderson P M, Fouad A A 1977 Power System Control and Stability (Ames: the Iowa State University Press) pp152-158
[22] Xue A C, Shen C, Mei S W 2006 Auto. Electr. Power Syst. 30 1 (in Chinese) [薛安成, 沈沉, 梅生伟 2006 电力系统自动化 30 1]
[23] Pan X P 2008 Ph. D. Dissertation (Hangzhou: Zhejiang University) (in Chinese) [潘学萍2008博士学位论文(杭州: 浙江大学)]
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