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  1. Naderipour A, Abdul-Malek Z, Ramachandaramurthy VK, Miveh MR, Moghaddam MJH, Guerrero JM
    Sci Rep, 2020 09 18;10(1):15335.
    PMID: 32948807 DOI: 10.1038/s41598-020-72152-x
    An amendment to this paper has been published and can be accessed via a link at the top of the paper.
  2. Naderipour A, Abdul-Malek Z, Ramachandaramurthy VK, Miveh MR, Moghaddam MJH, Guerrero JM
    Sci Rep, 2020 Jul 22;10(1):12176.
    PMID: 32699210 DOI: 10.1038/s41598-020-69123-7
    The static synchronous series compensator (SSSC) can add a series reactance to the transmission line, and when it is fed using auxiliary signals, it can participate in damping inter-area oscillations by changing the series reactance. In this paper, the effect of the SSSC on small-signal stability is investigated. The design of a controller for damping oscillations is designed and discussed. Moreover, using the firefly and the harmony search algorithms, the optimal parameters controlling SSSC are addressed. The effectiveness of these two algorithms and the rate of SSSC participation in damping inter-area oscillation are also discussed. MATLAB software was used to analyse the models and to perform simulations in the time domain. The simulation results on the sample system, in two areas, indicated the optimal accuracy and precision of the proposed controller.
  3. Naderipour A, Asuhaimi Mohd Zin A, Bin Habibuddin MH, Miveh MR, Guerrero JM
    PLoS One, 2017;12(2):e0164856.
    PMID: 28192436 DOI: 10.1371/journal.pone.0164856
    In recent years, renewable energy sources have been considered the most encouraging resources for grid and off-grid power generation. This paper presents an improved current control strategy for a three-phase photovoltaic grid-connected inverter (GCI) under unbalanced and nonlinear load conditions. It is challenging to suppress the harmonic content in the output current below a pre-set value in the GCI. It is also difficult to compensate for unbalanced loads even when the grid is under disruption due to total harmonic distortion (THD) and unbalanced loads. The primary advantage and objective of this method is to effectively compensate for the harmonic current content of the grid current and microgrid without the use of any compensation devices, such as active and passive filters. This method leads to a very low THD in both the GCI currents and the current exchanged with the grid. The control approach is designed to control the active and reactive power and harmonic current compensation, and it also corrects the system unbalance. The proposed control method features the synchronous reference frame (SRF) method. Simulation results are presented to demonstrate the effective performance of the proposed method.
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