Autonomous operation of wind-battery hybrid power system with maximum power extraction capability

2010 International Conference on Power System Technology Pub Date : 2010-12-13 DOI:10.1109/POWERCON.2010.5666506

N. Mendis, K. Muttaqi, S. Sayeef, S. Perera

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引用次数: 8

Abstract

The hybrid operation of a remote area power system consisting of a Doubly Fed Induction Generator (DFIG) based wind turbine, a battery storage unit and a dummy load is investigated in this paper. The battery storage unit operates as a source or load, depending on the wind power output and loading conditions of the system. The battery storage is connected to the AC side of the wind energy system through a three phase inverter to supply both active and reactive power. A dummy load is also incorporated into the AC side of the system. The design criteria of the controllers for each component (ie. DFIG, battery storage system and dummy load) and an approach for control coordination of the entire system are presented in this paper. The suitability of the proposed control coordination strategy and individual system controllers are tested in relation to the system voltage, frequency and DC link stability of the DFIG under variable wind and changing load conditions. The maximum power extraction capability from wind is also achieved throughout the operation.

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具有最大功率提取能力的风-电池混合动力系统的自主运行

研究了由双馈感应发电机(DFIG)风力发电机组、蓄电池储能机组和虚拟负载组成的偏远地区电力系统的混合运行问题。电池储能单元作为电源或负载运行，取决于风力输出和系统的负载条件。电池储能通过三相逆变器连接到风能系统的交流侧，以提供有功和无功功率。虚拟负载也被纳入系统的交流侧。每个部件的控制器的设计标准(即。本文提出了DFIG(蓄电池储能系统和虚拟负载)和整个系统的控制协调方法。在变风和变负荷条件下，测试了所提出的控制协调策略和单个系统控制器与DFIG系统电压、频率和直流链路稳定性的关系。在整个运行过程中，也实现了最大的风力提取能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2010 International Conference on Power System Technology

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