交直流混合微网配置下光伏-风能混合系统电源管理新方法

Q3 Energy

Iranian Journal of Electrical and Electronic Engineering Pub Date : 2020-12-10 DOI:10.22068/IJEEE.16.4.505

P. B. Nempu, J. N. Sabhahit

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引用次数: 0

摘要

交直流混合微电网（HMG）结构兼具直流和交流耦合结构的优点。使用可再生能源时，微电网会出现间歇性故障。在HMG中，由于负载变化和可再生能源发电的不可预测性，两个子电网都会出现功率波动，因此适当的电压和频率调节是关键问题。本文提出了一种独特的微电网运行方法，该方法包括光伏阵列、风能系统、燃料电池和HMG配置的电池。互连转换器（ILC）的控制方案调节子电网之间的频率、电压和功率流。HMG中的电源管理在不同的场景下进行了研究。通过HMG中采用的控制技术，在各个子网格内和子网格之间实现适当的功率管理。当FC系统作为直流子电网的备用电源，减少了通过ILC的功率流时，发现系统电压和频率偏差最小。

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A New Power Management Approach for PV-Wind-Fuel Cell Hybrid System in Hybrid AC-DC Microgrid Configuration

The hybrid AC-DC microgrid (HMG) architecture has the merits of both DC and AC coupled structures. Microgrids are subject to intermittence when the renewable sources are used. In the HMG, since power fluctuations occur on both subgrids due to varying load and unpredictable power generation from renewable sources, proper voltage and frequency regulation is the critical issue. This article proposes a unique method for operating a microgrid (MG) comprising of PV array, wind energy system (WES), fuel cell (FC), and battery in HMG configuration. The control scheme of the interlinking converter (ILC) regulates frequency, voltage, and power flow amongst the subgrids. Power management in the HMG is investigated under different scenarios. Proper power management is accomplished within the individual subgrids and among the subgrids by the control techniques adopted in the HMG. The system voltage and frequency deviations are found to be minimized when the FC system acts as the backup source for DC subgrid, reducing the power flow through the ILC.

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来源期刊

Iranian Journal of Electrical and Electronic Engineering Engineering-Electrical and Electronic Engineering

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

12 weeks