Mohamed Al Hosani scite author profile

The study of power flow analysis for microgrids has gained importance where several methods have been proposed to solve these problems. However, these schemes are complicated and not easy to implement due to the absence of a slack bus as well as the dependence of the power on frequency as a result of the droop characteristics. This paper proposes simple and effective modifications to the conventional method (Newton Raphson) to compute the power flow for microgrids. The presented method provides a simple, easy to implement, and accurate approach to solve the power flow equations for microgrids. The proposed method is applied to two test systems: a 6-bus system and a 38-bus system. The results are compared against simulation results from PSCAD/EMTDC which validate the effectiveness of the developed method. The proposed technique can be easily integrated in current commercially available power system software and can be applied for power system studies. Index Terms-Distributed generation (DG), islanded microgrid, power flow.

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High-Fidelity Model Order Reduction for Microgrids Stability Assessment

Vorobev

Huang

Hosani

et al. 2018

IEEE Trans. Power Syst.

181

141

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A Modified Backward/Forward Sweep Load Flow Method for Islanded Radial Microgrids

Hameed

Hosani

Zeineldin

2019

IEEE Trans. Smart Grid

107

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A framework for development of universal rules for microgrids stability and control

Vorobev

Huang

Hosani

et al. 2017

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Adaptive Voltage and Frequency Control of Islanded Multi-Microgrids

Amoateng

Hosani

Elmoursi

et al. 2018

IEEE Trans. Power Syst.

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