隔离负载下的风能-太阳能混合发电系统新拓扑

2018 International Conference on Power, Instrumentation, Control and Computing (PICC) Pub Date : 1900-01-01 DOI:10.1109/PICC.2018.8384764

Apurva Verma, A. Chakraborti, B. Das, P. Kasari, M. Mishra, Souradeep Pal

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引用次数: 3

摘要

提出了一种适用于隔离负载的混合风力-太阳能发电系统的新拓扑结构。主要重点是减少临界负载的电池尺寸，并直接从DFIG的定子侧提供非临界负载。DFIG从转子侧与背对背连接的PWM转换器进行控制。转子侧变换器(RSC)和负载侧变换器(LSC)在同步旋转参考系中采用矢量控制方案，不需要任何特殊的控制方案，控制电路的复杂性较低。关键、非关键负载和感应电机的无功功率需求将由直流链路电容器提供。直流环节电压由DC-DC变换器保持恒定，连接控制蓄电池充放电。由于在直流链路上有三种可能的选择(风能、太阳能和备用电池)，电池的尺寸将更小。在MATLAB中对该方案进行了建模、仿真和分析。

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A new topology for hybrid wind-solar generation system for isolated loads

This paper proposes a new topology for hybrid wind-solar generation system for isolated loads. The main focus is to reduce the size of battery for critical loads and supply non-critical loads directly from the stator side of DFIG. DFIG is controlled from rotor side with back to back connected PWM converters. Vector control scheme is being used in synchronously rotating reference frame for Rotor side converter (RSC) and Load side converter (LSC) does not require any special control scheme resulting in the lesser complex control circuitry. Reactive power demand for critical, non-critical loads and induction machine will be supplied from DC link capacitor. DC link voltage will be maintained as constant by DC-DC converter, connected to control battery charging and discharging. Since there are three possible options at DC link (wind, solar & battery backup), the size of battery will be lesser. The proposed scheme is modelled, simulated and analysed in MATLAB.

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2018 International Conference on Power, Instrumentation, Control and Computing (PICC)

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