新型光伏集成UPQC-S控制性能升级电网系统

2019 International Conference on Computation of Power, Energy, Information and Communication (ICCPEIC) Pub Date : 2019-03-01 DOI:10.1109/ICCPEIC45300.2019.9082364

K. Kumar, K. Ravi

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引用次数: 0

摘要

随着电网的日益复杂，同时包含电源和负载，需要提高系统的高效功能。这是通过提出的基于太阳能光伏控制的新功率理论，以及统一的电能质量调节器来实现的。本文采用广义级联延迟信号对消技术，将基频电压分量的正序从共耦合点分离出来，这是光伏和统一电能质量调节器- s集成系统生成参考波形所必需的。这里串联电压源变流器(VSC)一直提供无功功率，并联VSC的额定功率也降低了，进一步统一电能质量调节器直流母线上的光伏渗透提供了一部分有功负载功率，从而减少了源侧的需求。通过MATLAB-SIMULINK仿真，观察了新型电源相关PV-UPQC-S在线性和非线性负载下的动态性能。

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New performance upgrade grid system with PV Integrated UPQC-S control

With the increasing complexity of electrical network grid, incorporating both Source and Load, there is a need for the increase of efficient functionality of the system. this is accomplished by the proposed new power theory based of solar PV control, along with the unified power quality conditioner. This proposed work uses the Generalized Cascaded Delay Signal Cancellation Technique in order to seperate the positive sequence of the fundamental frequency voltage component from the point of common coupling, which is required for the generation of reference waveform for Photo Voltaic (PV) and Unified Power Quality Conditioner-S integrated system.Here the series Voltage source Converter (VSC) supplies reactive power at all time and the rating on shunt VSC is also reduced, further the PV penetration at DC bus of Unified Power Quality Conditioner supplies a fraction of active load power and hence reducing demand on source side. this dynamic performance of new power based related PV-UPQC-S is observed by simulating the system in MATLAB-SIMULINK with both linear and non linear loads.

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来源期刊

2019 International Conference on Computation of Power, Energy, Information and Communication (ICCPEIC)

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