Multilevel DC-Link Converter-Based Photovoltaic System with Integrated Energy Storage

Lashab, Abderezak; Séra, Dezső; Martins, João; Guerrero, Josep M.

doi:10.1109/efea.2018.8617110

Cited by 11 publications

(11 citation statements)

References 19 publications

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“…The integration of the high number of RESs into the power systems may cause some problems as critical voltage stability issues. For this reason, to ensure the integration of high level of RESs to the power systems, some suggestions must be introduced as developing new storage technologies adopted for voltage regulation: with the growing of RESs connected into the grid, the requirement of ES system (ESS) becomes very important [22, 23]. So, storage systems must be considered in other studies such as ES using superconducting magnetic, hydro pumping storage, and electrical vehicles storage (EVS) [24].…”

Section: Pv Penetration Impact On Voltage Profiles and Control Solumentioning

confidence: 99%

Photovoltaic power plants in electrical distribution networks: a review on their impact and solutions

Mansouri

Lashab

Guerrero

et al. 2020

IET Renewable Power Generation

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Section: Pv Penetration Impact On Voltage Profiles and Control Solumentioning

confidence: 99%

Photovoltaic power plants in electrical distribution networks: a review on their impact and solutions

Mansouri

Lashab

Guerrero

et al. 2020

IET Renewable Power Generation

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“…Variations in frequency in the grid may occur due to the increased penetration of PV systems [11]. Research attempts were dedicated to high PV penetration impacts [12].…”

Section: Frequency Stabilitymentioning

confidence: 99%

Large Photovoltaic Power Plants Integration: A Review of Challenges and Solutions

et al. 2019

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Renewable energy systems (RESs), such as photovoltaic (PV) systems, are providing increasingly larger shares of power generation. PV systems are the fastest growing generation technology today with almost ~30% increase since 2015 reaching 509.3 GWp worldwide capacity by the end of 2018 and predicted to reach 1000 GWp by 2022. Due to the fluctuating and intermittent nature of PV systems, their large-scale integration into the grid poses momentous challenges. This paper provides a review of the technical challenges, such as frequency disturbances and voltage limit violation, related to the stability issues due to the large-scale and intensive PV system penetration into the power network. Possible solutions that mitigate the effect of large-scale PV system integration on the grid are also reviewed. Finally, power system stability when faults occur are outlined as well as their respective achievable solutions.

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“…Due to the asymmetrical multiple voltage levels generated in the inverter, the proposed DP-AMI can achieve reduced number of power stages as well as lower voltage/current stresses over switches. In [18]- [20], the promising multilevel inverters in medium and high power Applications are proposed, which can handle the series-connected separate dc-voltage source or regulated voltage from the conventional dc-dc converter for ac load supply, and generate high-quality staircase pseudo sinusoidal voltage waveform with low total harmonic distortion. These multilevel inverters allow use of less sizable output filters and offer robust, efficient, and fault-tolerant features.…”

Section: Introductionmentioning

confidence: 99%

Two-Mode Controlled Single/Dual-Input DC–AC Inverter With Wide-Range DC Input

Chen

Zhang

2021

IEEE Trans. Power Electron.

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this paper presents a two-mode controlled step-up inverter (TMCSI), which is capable of handling single or dual inputs with a wide range of dc input voltage. In comparison of traditional multi-stage dc/dc power conversion systems, the power conversion stage is reduced and the voltage/current stress of device is significantly alleviated without using high-voltage dc-bus capacitors. As a result, the reliability and overall conversion efficiency are improved accordingly. By combining the two working modes, the proposed inverter achieves uniform distribution of duty ratio under single/dual-input with a wide range of input voltage, and thereby is very suitable for systems having large input voltage variation. Moreover, based on the dual-input TMCSI a novel power allocation method is also proposed to improve the system load-bearing ability. The power allocation method is controlled separately from two working modes that allows the two-input sources directly supply the ac load simultaneously. In this paper, topology derivation, two-mode control strategy, characteristics of steady principle and design criteria for the key circuit parameters are systematically analyzed, and important conclusions are obtained. Finally, the experimental results from the single/dual-input 500VA 96-192VDC input and 220VAC/50Hz output inverter prototype verify the effectiveness of the proposed TMCSI topology and its associated power regulation approach.

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Multilevel DC-Link Converter-Based Photovoltaic System with Integrated Energy Storage

Cited by 11 publications

References 19 publications

Photovoltaic power plants in electrical distribution networks: a review on their impact and solutions

Photovoltaic power plants in electrical distribution networks: a review on their impact and solutions

Large Photovoltaic Power Plants Integration: A Review of Challenges and Solutions

Two-Mode Controlled Single/Dual-Input DC–AC Inverter With Wide-Range DC Input

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