Issues and Challenges of Grid-Following Converters Interfacing Renewable Energy Sources in Low Inertia Systems: A Review

Aljarrah, Rafat; Fawaz, Bayan Bany; Salem, Qusay; Karimi, Mazaher; Marzooghi, Hesamoddin; Azizipanah-Abarghooee, Rasoul

doi:10.1109/access.2024.3349630

Cited by 16 publications

(2 citation statements)

References 240 publications

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“…In the field of electricity industry, a massive evolution has taken place in the energy generation and transmission systems in most developed countries, which have several advantages in technical and economical cases of generation and transmission grids. This new energy generation system is called distributed generations (DGs) [1,2].…”

Section: Introductionmentioning

confidence: 99%

Frequency Stabilizing and Reducing Power Outages of The Islanded Power ‎Network Using a ‎Load Shedding Method in The Presence of Renewable Energy ‎Resources

Eslami

2024

JGERI

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Controlling the frequency and voltage of the power network with renewable energy resources is one of the most important things in the integrity of the network. Therefore, after occurring any accident or fault in the network, the frequency and voltage and in general all the basic parameters of the network must return to their acceptable range within a certain period of time. Despite all the technical, economic and environmental advantages that renewable energy resources have, the presence of these kind of sources may have negative effects on voltage profiles and protection coordination in distribution networks, it is also possible that a part of the network acts as an unwanted island, which complicates the operation and control of the network and creates a risk of electrocution for the network personnel. Therefore, islanding detection is very important and necessary in network protection and load shedding methods are usually used to eliminate this event. In this paper, a multi-objective load shedding method in microgrids is proposed for the frequency stability and reduction of power outages. Among the advantages of the proposed method can be mentioned its flexibility, speed of operation and high accuracy. The proposed method is applied and simulated on a microgrid in the DIgSILENT software environment, and the results of the simulation confirm the advantages of the proposed method.

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Section: Introductionmentioning

confidence: 99%

Frequency Stabilizing and Reducing Power Outages of The Islanded Power ‎Network Using a ‎Load Shedding Method in The Presence of Renewable Energy ‎Resources

Eslami

2024

JGERI

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“…As part of the major power source, GFM converter control technology must be integrated into the WPPs to enhance power system stability.Existing OF WPPs (or IBRs in general) are dominated by grid-following (GFL) converter control technology, which synchronises itself to the grid via phase-locked loops (PLLs) and follows the frequency and voltage reference of the grid while injecting a constant power via a controlled current. Consequently, GFL converters have several issues in their synchronisation stability, transient responses, weak grid operation, and grid support functionalities, to name a few (Aljarrah et al, 2024). On the other hand, GFM converters can define internal voltage and frequency and can behave as a voltage source as opposed to the current source behaviour of the GFL converters (Matevosyan et al, 2019) and enhance the overall stability of an interconnected system (Pattabiraman et al, 2018) as well as an islanded system (Verbe et al, 2021).…”

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confidence: 99%

Functional Specifications and Testing Requirements of Grid-Forming Offshore Wind Power Plants

Ghimire,

Guerreiro,

Vatta Kkuni

et al. 2024

Preprint

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Abstract. Throughout the past few years, various transmission system operators (TSOs) and research institutes have defined several functional specifications for grid-forming (GFM) converters via grid codes, white papers, and technical documents. These institutes and organisations also proposed testing requirements for general inverter-based resources (IBRs) and specific GFM converters. This paper initially reviews functional specifications and testing requirements from several sources to create an understanding of GFM capabilities in general. Furthermore, it proposes an outlook of the defined GFM capabilities, functional specifications, and testing requirements for offshore wind power plant (OF WPP) applications from an original equipment manufacturer (OEM) perspective. Finally, this paper briefly establishes the relevance of new testing methodologies for equipment-level certification and model validation, focusing on GFM functional specifications.

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Energy and exergy analysis of a novel collector design in a photovoltaic thermal system: An experimental study

Luqman Azeez,

Ibrahim,

Omer Ahmed

et al. 2024

Applied Thermal Engineering

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Issues and Challenges of Grid-Following Converters Interfacing Renewable Energy Sources in Low Inertia Systems: A Review

Cited by 16 publications

References 240 publications

Frequency Stabilizing and Reducing Power Outages of The Islanded Power ‎Network Using a ‎Load Shedding Method in The Presence of Renewable Energy ‎Resources

Frequency Stabilizing and Reducing Power Outages of The Islanded Power ‎Network Using a ‎Load Shedding Method in The Presence of Renewable Energy ‎Resources

Functional Specifications and Testing Requirements of Grid-Forming Offshore Wind Power Plants

Energy and exergy analysis of a novel collector design in a photovoltaic thermal system: An experimental study

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