A novel digital control strategy of three-phase shunt active power filter under non-ideal mains voltages 被引量：1

A novel digital control strategy of three-phase shunt active power filter under non-ideal mains voltages

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摘要 A novel control strategy for three-phase shunt active power filter (SAPF) was proposed to improve its performance under non-ideal mains voltages. The approach was inspired by our finding that the classic instantaneous reactive power theory based algorithm was unsatisfactory in terms of isolating positive sequence fundamental active components exactly under non-ideal mains voltages. So, a modified ip-iq reference current calculation method was presented. With usage of the new method, not only the positive sequence but also the fundamental active current components can be accurately isolated from load current. A deadbeat closed-loop control model is built in order to eliminate both delay error and tracking error between reference voltages and compensation voltages under unbalanced and distorted mains voltages. Computer simulation results show that the proposed strategy is effective with better tracking ability and lower total harmonic distortion (THD). The strategy is also applied to a 10 kV substation with a local electrolysis manganese plant injecting a large amount of harmonics into the power system, and is proved to be more practical and efficient. A novel control strategy for three-phase shunt active power filter （SAPF） was proposed to improve its performance under non-ideal mains voltages. The approach was inspired by our finding that the classic instantaneous reactive power theory based algorithm was unsatisfactory in terms of isolating positive sequence fundamental active components exactly under non-ideal mains voltages. So, a modified ip-iq reference current calculation method was presented. With usage of the new method, not only the positive sequence but also the fundamental active current components can be accurately isolated from load current. A deadbeat closed-loop control model is built in order to eliminate both delay error and tracking error between reference voltages and compensation voltages under unbalanced and distorted mains voltages. Computer simulation results show that the proposed strategy is effective with better tracking ability and lower total harmonic distortion （THD）. The strategy is also applied to a 10 kV substation with a local electrolysis manganese plant injecting a large amount of harmonics into the power system, and is proved to be more practical and efficient.

作者胡志坤陈志文华长春王会海丁家峰

机构地区 School of Physics Science and Technology Institute of Electrical Engineering

出处《Journal of Central South University》 SCIE EI CAS 2011年第6期2021-2030,共10页 中南大学学报（英文版）

基金 Project(JC200903180555A) supported by Shenzhen City Science and Technology Plan, China

关键词并联有源电力滤波器电源电压控制策略非理想三相瞬时无功功率理论计算机模拟总谐波失真 non-ideal mains voltage deadbeat control fundamental positive sequence active current shunt active power filter

分类号 TN713.8 [电子电信—电路与系统] TM76 [电气工程—电力系统及自动化]

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1EGUCHI K, OOTA 1, TERADA S, INOUE T. A design method of switched-capacitor power converters by employing a ring-type power converter [J]. International Journal of Innovative Computing, Information and Control, 2009, 5(10A): 2927-2938.
2WANG Yah, MAO Zhi-zhong, TIAN Hui-xin, LI Yan, YUAN Ping. Modeling of electrode system for three-phase electric arc furnace [J]. Journal of Central South University of Technology, 2010, 17(3): 560 565.
3SINGH B, AL-HADDAD K, CHANDRA A. A review of active filters for power quality improvement [J]. IEEE Trans Ind Electron 1999, 46(5): 960-971.
4JA1N S, AGARWAL P, GUPTA H O. Design simulation and experimental investigations on a shunt active power filter for harmonics and reactive power compensation [J]. Electr Power Comp Syst, 2003, 32(7): 671-692.
5FURUHASSHI T, OKUMA S, UCHIKAWA Y. A study on the theory of instantaneous reactive power [J]. IEEE Trans ind Electron, 1990, 37(1): 86-90.
6HU Zhi-ku, HU Meng-yang, GUI Wei-hua, YANG Chun-hua, HE Zhi-min. An improved ip--iq detection approach of positive fundamental active and reactive current based on p-q transformation [J]. Journal of Central South University: Science and Technology, 2010, 41(3): 1015 1021. (in Chinese).
7AKAGI H, KANAZAWA Y, NABAE A. Instantaneous reactive power compensator comprising switching devices without energy storage components [J]. IEEE Trans Ind Electron, 1984, 20(3): 625-630.
8AREDES M, HAFNER J, HEUMANN K. Three-phase four-wire shunt active filter control strategies [J]. Power Electronics, 1EEE Transactions on, 1997, 12(2): 311-318.
9MA H, CAI Z. Comparison of control strategies for active power filter in three-phase four-wire systems [C]// The 30th Annual Conference of the IEEE Industrial Electronics Society. Busan, South Korea. 2004: 1429-1434.
10HUANG S, WU J, JOU H. A study of three-phase active power filters under nonideal mains voltages [J]. Electr Power Syst Res, 1999, 49(2): 129-137.

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1王莉娜,罗安.Prediction control of active power filters[J].Journal of Central South University of Technology,2003,10(3):260-264. 被引量：3
2CARRASCO J M, FRANQUELO L G, BIALASIEWICZ J T, GALVAN E, GUISADO R C P, PRATS M A M, LEON J I, MORENO N. Power-electronic systems for the grid integration of renewable energy sources: A survey [J]. IEEE Transactions on Industrial Electronics, 2006, 53(4): 1002-1016.
3MELHORN C J, DAVIS T D, BEAM G E. Voltage sags: Their impact on the utility and industrial customers [J]. IEEE Transactions on Industry Applications, 1998, 34(3): 549-558.
4QIAN Le-wei, DAVID A C, LI Hui. An improved adaptive detection methods for power quality improvement [J]. IEEE Transactions on Industry Applications, 2008, 44(2): 525-533.
5WU T F, SHEN C L, CHANG C H, CHIU J Y. 103W grid- connection PV power inverter with partial active power filter [J]. IEEE Transactions on Aerospace and Electronic Systems, 2003, 39(2): 635-646.
6WU T F, NIEN H S, HSIEN H M, SHEN C L. PV power injection and active power filtering with amplitude-clamping and amplitude-scaling algorithms [J]. IEEE Transactions on Industry Applications, 2007, 43(3): 731-741.
7BOJOI R, LIMONGI L R, ROIU D, TENCONI A. Enhanced power quality control strategy for single-phase inverters in distributed generation systems [J]. IEEE Transactions on Power Electronics, 2011, 26(3): 798-806.
8PATEL H, AGARWAL V. Investigations into the performance of photovoltaics-based active filter configurations and their control schemes under uniform and non-uniform radiation conditions [J]. lET Renewable Power Generation, 2010, 4(1): 12-22.
9WU T F, NIEN H S, SHEN C L, CHEN T M. A single-phase inverter system for PV power injection and active power filtering with nonlinear inductor consideration [J]. IEEE Transactions on Industry Applications, 2005, 41(4): 1075-1083.
10WANG Xian-wei, ZHUO Fang, LI Jing, WANG Lin, NI Song. Modeling and control of dual-stage high-power multifimctional PV system in d-q-o coordinate [J]. IEEE Transactions on Industrial Electronics, 2013, 60(4): 1556-1570.

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1李晶,葛敏.最大风能追踪模糊控制器的仿真设计[J].风机技术,2010,52(6):50-52. 被引量：2
2吴文桂.五芯柱型整流变压器在电解锰中的应用[J].福建电力与电工,1995,15(4):59-61.
3罗天盛.微粒电解锰的电化学活性[J].电池,1994,24(1):22-23. 被引量：5
4李悦社.基于小波变换的并联型有源电力滤波器[J].科技创新导报,2010,7(28):71-72.
5赵中原.固态限流器对电力系统暂态特性的影响[J].华北电力技术,2005(7):22-25. 被引量：4
6Wada Hosny,Han-Eol Parjk,Joong-Ho Song.Investigation of Shunt Active Power Filters in Railway Systems, Substation Installation[J].Journal of Energy and Power Engineering,2013,7(10):1974-1979.
7李新民,周建春,徐功潜.采用一种新控制方法的并联有源电力滤波器[J].电力电子技术,2007,41(10):96-98. 被引量：2
8李建林,张小蓉,李彩霞,张仲超.基于滑模变结构控制的三相有源电力滤波器[J].电源技术应用,2004,7(10):604-608. 被引量：2
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10夏熙,文力,鲁阳.中国锌锰电池及锰材料的近况及前景(英文)[J].电池,1995,25(5):203-206. 被引量：3

Journal of Central South University

2011年第6期

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A novel digital control strategy of three-phase shunt active power filter under non-ideal mains voltages 被引量：1

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