基于微水电-光伏-风电的混合微电网集成与功率控制

2017 International Conference on Circuit ,Power and Computing Technologies (ICCPCT) Pub Date : 2017-04-20 DOI:10.1109/ICCPCT.2017.8074183

S. Pati, K. Mohanty, Abhijeet Choudhury, S. Kar

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引用次数: 21

摘要

本文研究了一种混合微电网系统。一个22KW的基于SEI G的微水力系统，一个18KW的光伏阵列和一个7.5 KW的基于DFIG的风力系统为时变负荷供电。微型水力发电系统由恒定电源供电。带有升压变换器的光伏阵列通过电网侧变换器- 1提供有功功率，该变换器控制向系统馈送的光伏功率。DFIG的定子侧以单位功率因数向系统供电，转子侧变流器控制定子侧功率流。在基于模糊的GSC-II的直流侧连接电池储能系统(BESS)，因此GSC-II根据负载需求对有功和无功功率进行控制和补偿。本文不介绍光伏阵列和风能系统的最大功率控制，而是重点研究基于模糊的RSC、GSC-I和GSC-II的控制，以保持系统的电压和频率。在考虑了线性、非线性和动态载荷的情况下，给出了隔离微电网系统的完整性能。利用MATLAB/Simulink平台对所有案例进行了仿真。

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Integration and power control of a micro-hydro-PV-wind based hybrid microgrid

In this paper a hybrid Microgrid system has been taken into consideration. A 22KW SEI G based micro-hydro system, an 18KW PV Array and a 7.5 KW DFIG based wind system are supplying power to a time varying load. The micro-hydro system is fed from a constant power source. The PV array with a boost converter supplies active power through the Grid Side Converter-I which controls the PV power fed to the system. The stator side of the DFIG supplies power to the system at unity power factor where Rotor side converter controls stator side power flow. A Battery Energy Storage System (BESS) is connected at the DC side of the Fuzzy based GSC-II, hence GSC-II controls and compensates both the active and reactive power according to the load demand. This paper doesn't present the MPPT of PV array and Wind energy system but concentrates on the control of the Fuzzy based RSC, GSC-I & GSC-II so as to maintain the voltage and frequency of the system. Complete performance of the isolated Microgrid system has been presented taking several load i.e. linear, non-linear and dynamic loads into account. All the cases have been simulated using MATLAB/Simulink platform.

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来源期刊

2017 International Conference on Circuit ,Power and Computing Technologies (ICCPCT)

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