交直流故障条件下交直流混合系统的双向潮流控制

JAREE Journal on Advanced Research in Electrical Engineering Pub Date : 2019-10-31 DOI:10.12962/j25796216.v3.i2.98

Wai Wai Hnin

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引用次数: 0

摘要

本文提出了一种交直流混合微电网，以减少单个交流微电网或直流微电网的多次转换过程。本文提出的混合型微电网是由交流微电网和直流微电网通过双向互连变换器(BIC)连接而成。交流微网连接公用电网、150kVA柴油发电机(DG)和100kW交流负荷。直流微电网由100kw的光伏阵列(PV)、20kW的电池储能系统(BESS)和20kW的直流负载组成。采用下垂控制技术对交直流混合微电网中各电源间按额定功率比例进行功率共享控制。当交流母线发生故障时，向断路器施加保护信号，隔离正常系统和故障系统。直流故障发生在直流母线，直流断路器隔离交流和直流母线。利用MATLAB/SIMULINK对交直流混合微电网潮流共享系统的性能进行了验证。

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Bidirectional Power Flow Control in AC/DC Hybrid System under AC and DC Fault Conditions

This paper presents a hybrid AC-DC microgrid to reduce the process of multiple conversions in an individual AC microgrid or DC microgrid. The proposed hybrid microgrid compose of both AC microgrid and DC microgrid connected together by bidirectional interlink converter (BIC). Utility grid, 150kVA diesel generator (DG) and 100kW AC load are connected in AC microgrid. DC microgrid is composed of 100 kW photovoltaic array (PV), 20kW battery energy storage system (BESS) and 20kW DC load. The droop control technique is applied to control the system for power sharing within the sources in AC/DC hybrid microgrid in proportion to the power rating. When the faults occur at AC bus, protection signal applied to breaker for isolating the healthy and faults system. DC faults occur at DC bus, DC breaker isolate the AC and DC bus. The system performance for power flow sharing on hybrid AC-DC microgrid is demonstrated by using MATLAB/SIMULINK.

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来源期刊

JAREE Journal on Advanced Research in Electrical Engineering

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审稿时长

24 weeks