交直流混合微电网的管理

2013 IEEE Energytech Pub Date : 2013-05-21 DOI:10.1109/ENERGYTECH.2013.6645327

Sameer Alsharif, K. Loparo

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引用次数: 4

摘要

本文的目的是演示在自治岛模式下运行的单相混合微电网的需求功率共享。我们假设直流子电网中有光伏阵列和风力涡轮机等直流电源，它们通过双向单相逆变器与由两个不间断电源(UPS)组成的交流子电网相连。需求下垂控制用于管理各子电网电源之间的电力共享;然而，管理整个电网的电力流动仍然是一个挑战。为了克服这个问题，我们开发了每个子电网的下垂控制策略，以及接口变换器的下垂控制。利用MATLAB仿真结果验证了所开发的功率共享方法的性能。测试了四种不同的场景:(1)两个子电网都是重负载，(2)两个子电网都是轻负载，(3)一个重直流负载带一个轻交流负载，(4)一个重交流负载带一个轻直流负载。

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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Management of hybrid (AC-DC) micro-grids

The objective of this paper is to demonstrate the sharing of demanded power in a single-phase hybrid micro grid operating in autonomous island mode. We assume that we have DC power sources such as a photovoltaic array and wind turbine in the DC sub-grid that are tied to the AC sub-grid consisting of two uninterruptible power sources (UPS) through a bi-directional single phase inverter. Demand-droop control is used to manage power sharing between power sources in each sub-grid; however, managing the power flow through the entire grid is still a challenge. To overcome this we develop droop control strategies for each sub-grid, and droop control for the interfacing converter. Simulation results using MATLAB are used to demonstrate the performance of the power sharing methodology developed. Four different scenarios have been tested: (1) both sub-grids are heavy loaded, (2) both sub-grids have are lightly loaded, (3) a heavy DC load with a light AC load, and (4) a heavy AC load with a light DC load.

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2013 IEEE Energytech

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