Modeling of Autonomous Microgrid Operated at Medium-Voltage Level and at Constant Frequency and Study of Its Voltage Profile

Q4 Energy

Journal of Nuclear Energy Science and Power Generation Technology Pub Date : 2023-02-17 DOI:10.21926/jept.2301009

Daming Zhang

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引用次数: 1

Abstract

To increase power level in an autonomous microgrid, higher voltage is necessary. In this paper, detailed Matlab/Simulink modeling of a microgrid operated at medium-voltage level and at constant frequency has been conducted. Modified boost converter and medium-frequency transformer isolated DC/DC converter are adopted for both solar energy and wind energy harnessing in order for them to be connected with the microgrid. This paper further adopted a differential evolution (DE)-based method to carry out load flow analysis to work out the voltage at each bus. Results obtained from the DE method are nearly the same at some nodes or buses as those from Matlab/Simulink platform-based time-domain fixed-step modeling, while at other nodes they are very close to each other. Then DE method can be used to carry out load flow analysis in more complex microgrids with more nodes to overcome the limited modelling capability of Matlab/Simulink and other tools. Moreover, this new research effort also paves the way for the stability analysis of large-scale microgrids.

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中压恒频自治微电网建模及电压分布研究

为了提高自主微电网的功率水平，需要更高的电压。本文对中压恒频微电网进行了详细的Matlab/Simulink建模。太阳能和风能的利用均采用改进升压变换器和中频变压器隔离DC/DC变换器，使其接入微电网。本文进一步采用差分演化(DE)方法进行潮流分析，计算出各母线电压。DE方法得到的结果在某些节点或总线上与基于Matlab/Simulink平台的时域定步建模结果几乎相同，而在其他节点上则非常接近。然后利用DE方法在节点较多的更复杂的微电网中进行潮流分析，克服了Matlab/Simulink等工具建模能力的局限性。此外，这一新的研究成果也为大规模微电网的稳定性分析铺平了道路。

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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Journal of Nuclear Energy Science and Power Generation Technology Energy-Energy Engineering and Power Technology

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