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负载侧电压无功就地统一补偿装置配置方案性能分析 被引量:7

Performance Analysis of Voltage and Reactive Power Unified Compensation Device Load-side Configuration Program
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摘要 低压配电网的电能质量是决定区域内各用电设备运行可靠与稳定的关键因素。本文以适用于低压配电网的各种晶闸管分档调节装置为基础,对比分析了一种新型负荷侧就地补偿装置和典型的无功电压配置方案。以典型配电网馈线模型为例,对该调节装置负载侧就地配置之后整条馈线模型的潮流及装置配置参数进行了计算,并将其与传统电压无功调节配置方法在经济性以及电压无功调节性能等各个方面进行了对比,理论分析与仿真实验结果说明了该新型装置负载侧就地补偿配置方法的有效性和在农村配电网应用环境中的优越性。 The power quality of the low voltage distribution network is the key factors of reliability and stability of each device operational.Comparative analysis between a new PQ(power quality) compensation device configuration of load side and typical reactive voltage compensation configuration program is described in this paper.We also calculated the power flow of the entire feeder model and parameters of devices under the load-side configuration program of compensation device and compared with the classical voltage and reactive power regulation configuration program in the classical tradition of voltage and reactive power regulation performance.Theoretical analysis and simulation and experiment results proved the effectiveness of the load-side new device configuration methods and the superiority of application in rural distribution network.
出处 《电工技术学报》 EI CSCD 北大核心 2013年第S2期302-308,共7页 Transactions of China Electrotechnical Society
基金 国家自然科学基金资助项目(51107134)
关键词 电压无功统一调节 负载侧就地补偿 性能分析 Voltage and reactive power unified regulation,load side configuration,performance analysis
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  • 1王同勋,薛禹胜,S.S.CHOI.动态电压恢复器研究综述[J].电力系统自动化,2007,31(9):101-107. 被引量:95
  • 2Hassan I D, Weronick R, Bucci R M. Evaluating the transient performance of standby diesel-generator units by simulation[J]. IEEE Trans on Energy Conversion, 1992, 7(3): 470-477.
  • 3Rahman M A, Osheiba A M, Radwan T S. Modelling and controller design of an isolated diesel engine permanent magnet synchronous generator[J]. IEEE Trans on Energy Conversion, 1996, 11 (2): 324-330.
  • 4IEEE Std 387-1995, IEEE standard criteria for diesel-generator units applied as standby power supplies for nuclear power generating stations[S].
  • 5Singh B, Solanki J. Load compensation for diesel generator-based isolated generation system employing DSTATCOM[J]. IEEE Trans on tndustryApplications, 2011, 47(1): 238-244.
  • 6Wu Di, Chang C S. Voltage sag mitigation in offshore oil rig power system by dynamic voltage restorer[C]//IEEE International Symposium on Industrial Electronics, Gdansk, Poland, 2011, 6: 1160-1165.
  • 7Rodriguez J R, Dixon J W, Espinoza J R, et al. PWM regenerative rectifiers: state of the art[J]. IEEE Trans on Industrial Electronics, 2005 52(1): 5-22.
  • 8Hassan I D, Weronick R, Bucci R M. Evaluating the transient perfor- mance of standby diesel-generator units by simulation[J]. IEEE Transactions on Energy Conversion, 1992, 7(3): 470-477.
  • 9Rahman M A, Osheiba A M, Radwan T S. Modelling and controller design of an isolated diesel engine permanent magnet synchronous generator[J]. IEEE Transactions on Energy Conversion, 1996, 11(2): 324-330.
  • 10IEEE Std 387TM-1995 IEEE standard criteria for diesel-generator units applied as standby power supplies for nuclear power generating sta- tions[S], 1995.

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