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The continuity of supply and quality of power are the two main significant aspects of today’s power delivery system. The Dynamic Voltage Restorer (DVR) is a series connected custom power device which improves the quality of power delivered to the consumers. This paper deals with the effectual exploitation of DVR for interconnecting the proton exchange membrane fuel cell (PEMFC) stack to the grid based on optimized proportional integral (PI) and fuzzy logic (FL) Controller. The real coded Genetic algorithm (GA) is used to optimize the PI controller parameters. The PEMFC operated boost converter is used to boost up the fuel cell output voltage to balance the DC side necessities of the voltage source converter (VSC). The proposed DVR provides balanced and unbalanced voltage sag/swell compensation, harmonic reduction as well as an active power injection to the grid. The designed method also protects the sensitive loads from source side power quality disturbances including short term interruption. In addition, the harmonic compensation performance of the proposed work is validated by comparing with the results of the H∞ controller based DVR under medium level voltage condition. The simulation results from MATLAB/SIMULINK are discussed to prove the effectiveness of the planned method. 相似文献
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This paper presents a method to compensate voltage sags with minimum energy injection for a series‐connected voltage restorer using a micro‐SMES. A circuit for extracting the fundamental symmetrical components from sag voltages and a minimum energy injection algorithm is described. Simulations of voltage sag compensation have been carried out using PSCAD/EMTDC for various faults. The simulation results confirm the validity of the proposed method and show the possibility of reducing the size of energy storage devices. © 2002 Wiley Periodicals, Inc. Electr Eng Jpn, 141(3): 70–80, 2002; Published online in Wiley InterScience ( www.interscience.wiley.com ). DOI 10.1002/eej.10047 相似文献
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电能质量问题的研究和技术进展(三) --电力系统的电压凹陷 总被引:26,自引:5,他引:26
首先介绍电压凹陷的一般概念。从幅值和持续时间所反映的波形特征上对各种电压凹陷进行分类。基于系统可靠性的分析方法提出电压凹陷影响评估的方式并给出性能指标,考虑了敏感负荷的要求和电压凹陷的量化标准。最后简要介绍了电压凹陷的一般控制方法。 相似文献
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动态电压恢复器的能量稳定控制 总被引:13,自引:6,他引:13
针对动态电压恢复器(DynamicVoltageRestorer,DVR)提出了一种能量稳定控制策略,该策略综合了已有的负荷电压固定补偿,同相电压补偿和最小能量补偿三种负荷电压控制策略的优点而避免了各自的缺点,在实现DVR补偿目标的同时,优化了DVR与系统的能量交换过程,减少了所需要的设备容量并增加了有效补偿时间,提高了经济性和可靠性。采用该控制策略的DVR不需要整流充电单元也能够在发生电压跌落或电压上升后的较短时间内恢复其直流储能单元的能量,同时避免了系统电压上升时,DVR吸收能量导致直流侧过电压带来的安全威胁。最后用仿真试验验证了该控制策略的实用性和有效性。 相似文献
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Now a day’s most power quality problems in distribution systems are related to voltage sags. Hence, diverse solutions have been tried to compensate these voltage sags to circumvent financial losses due to voltage sag at industries. Dynamic voltage restorers (DVRs) are now becoming more recognized in industries to diminish the impact of voltage sags to sensitive loads. The DVR, which is placed in series with a sensitive load, must be able to react speedily to a voltage sag if end users of sensitive equipment are to experience no voltage sags. This paper discusses the use of series reactive injection as a voltage regulator. The proposed approach is to develop analytical aspects and to illustrate these by an example of a real Indian distribution system. Voltage sag can be eliminated by continuously injecting very small voltage profile to the system. The scheme combines the method of instantaneous symmetrical components and complex Fourier transform relations. The proposed technique, based on half-cycle averaging, can mitigate voltage sag at desired locations in distribution systems. The proposed methodology is applied in a 4 bus system and a real Indian distribution system. 相似文献
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电能质量对用户的影响受到广泛的重视,本文对比了分析了几种解决经常出现的电压凹陷装置的特点,包括传统的基于蓄电池的不间断电源(UPS)、飞轮储能装置(Flywheel)、超导储能设备(SMES)、动态电压补偿装置(DVR)。并基于超导储能提出了综合电压动态补偿设备,可以略综合解决电能质量问题,并可作为限流器使用。给出了拓扑图,详细分析工作原理并进行了仿真和初步的试验。通过分析,表明系统可以通过不同的控制策略分别实现限流和补偿。 相似文献
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