Battery-less hybrid micro-grid power management using bi-directional three phase power converter

2015 IEEE First International Conference on DC Microgrids (ICDCM) Pub Date : 2015-06-07 DOI:10.1109/ICDCM.2015.7152003

M. Nassef, H. Ashour, H. Desouki

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引用次数: 4

Abstract

This paper proposes the use of a three phase power converter setup with suitable controller, for power flow management over a hybrid micro-grid (including AC and DC grids), without need to any permanent storage systems (batteries or fuel cells) on the DC bus to counteract their high cost, complexity of design and integration. Such proposed system is capable of serving low voltage residential and commercial loads, where there would be an availability of renewable energy sources and possible DC loads (heaters, LED lights, electronics, etc ...). Bidirectional power transmission is achieved between AC and DC buses through a three phase bi-directional converter whose primary objective is to maintain a constant DC bus voltage with respect to DC sources or loads change. A proportional integral controller is utilized to stabilize the reference DC bus voltage by varying the reference AC grid side current that is controlled by a hysteresis controller. Through MATLAB SIMULINK simulation and practical implementation, the proposed prototype setup was evaluated for different operation scenarios.

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基于双向三相电源变换器的无电池混合微电网电源管理

本文建议使用具有合适控制器的三相电源转换器设置，用于混合微电网(包括交流和直流电网)的潮流管理，而不需要在直流总线上使用任何永久存储系统(电池或燃料电池)，以抵消其高成本，设计和集成的复杂性。这种拟议的系统能够服务于低压住宅和商业负载，在那里可以使用可再生能源和可能的直流负载(加热器，LED灯，电子设备等)。双向电力传输是通过三相双向变换器在交流和直流母线之间实现的，其主要目的是在直流源或负载变化时保持直流母线电压恒定。比例积分控制器通过改变参考交流电网侧电流来稳定参考直流母线电压，该电流由迟滞控制器控制。通过MATLAB SIMULINK仿真和实际实现，对所提出的原型装置进行了不同操作场景下的评估。

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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2015 IEEE First International Conference on DC Microgrids (ICDCM)

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