A q component‐based adaptive protection coordination optimisation using overcurrent relays in coordination with fuses for hybrid microgrid

Singh, Manjeet

doi:10.1049/gtd2.12156

Cited by 9 publications

(3 citation statements)

References 32 publications

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“…(B) (a) (c) Algoritmo optimización evolutivo [16], [17], [18], [19], [20], [21], [22] Algoritmo de evolución que optimiza ajustes asignados a relés.…”

Section: Automation Of Methodology For Analysis Of Overcurrent Protec...unclassified

Automation of Methodology for Analysis of Overcurrent Protection Functions in Electrical Power Systems

Arboleda Arroyave,

González Sanchez,

Isaac Millan

2024

IEEE Latin Am. Trans.

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“…(B) (a) (c) Algoritmo optimización evolutivo [16], [17], [18], [19], [20], [21], [22] Algoritmo de evolución que optimiza ajustes asignados a relés.…”

Section: Automation Of Methodology For Analysis Of Overcurrent Protec...unclassified

Automation of Methodology for Analysis of Overcurrent Protection Functions in Electrical Power Systems

Arboleda Arroyave,

González Sanchez,

Isaac Millan

2024

IEEE Latin Am. Trans.

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“…[25][26][27][28]. Despite the fact that microgrids have several advantages, one of the significant issues that must be overcome in order to adequately operate DG connected DNs (D-DNs) is creating reliable and effective protection [29,30]. The DOCRs with standard characteristics were designed based on unidirectional power flow and a higher magnitude of fault current [1,25].…”

Section: Introductionmentioning

confidence: 99%

Investigating the performance of non‐standard characteristics‐based overcurrent relays and their optimum coordination in distributed generators connected networks

Vala

Rajput²,

Sumaiti

2023

IET Generation Trans & Dist

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To handle the challenges attributed to the distributed generators, the protection system of distribution networks needs to be evolved. Recent protection schemes modify the standard characteristics of overcurrent relays, called non‐standard characteristics. These non‐standard characteristics are mostly case‐dependent and have limitations in solving the variety of protection challenges attributed to distributed generators. This paper analyses the performance of six voltage‐based non‐standard characteristics on photovoltaic distributed generators (PVDG) penetrated 3‐bus, 8‐bus, and IEEE 30‐bus distribution grid, as well as the 9‐bus Canadian radial distribution grid with synchronous distributed generator, wind turbine generator, and PVDG penetrations. Besides that, the optimum coordination of these non‐standard characteristics‐based overcurrent relays is a complex problem due to the involvement of additional controlling parameters. To find the best suitable method, a comparative analysis of the genetic algorithm, differential evolution, artificial bee colony, harmony search algorithm, firefly algorithm, cuckoo search algorithm and particle swarm optimization are performed for optimum relay coordination. The outcomes of the paper are thoroughly discussed for future research on non‐standard characteristics development.

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“…A mixed integer linear-program-model-based protection coordination method in distribution network is proposed in [23], where the technique is suitable for radial systems without consideration of DG integration. Similarly, another method in [24] for protection coordination of microgrid requires additional voltage measurement to obtain q-component of current.…”

Section: Introductionmentioning

confidence: 99%

Protection of converter dominated MV microgrid using changes in current's phase angle

Mohanty

Chen

Tuấn

2021

IET Generation Trans & Dist

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Converter interfaced distributed generations in a microgrid feed the modulated current of limited magnitude during fault conditions. The protection design and its operation are thus challenging due to limited fault current which is further reduced by Petersen coil grounding in medium-voltage (MV) level. This paper aims to address this challenge by developing a current-only directional relay algorithm for the protection of converter dominated MV microgrid with Petersen coil grounding. The relay's operating principle is based on the sign of the change in phase angle of the fault current with respect to the prefault which indicates the direction of fault. The negative and positive changes in current's phase angle determine the fault in forward and reverse direction, respectively. The tripping decision is derived by comparing the binary output of the relay at both ends of the line segment under protection. This requires a simple, flexible and low bandwidth communication channel. Both theoretical analyses and simulation studies have been performed on a typical distribution grid intended to be operated as microgrid. The proposed protection method is suitable for microgrid having the converters with and without reactive power support. Various operating conditions are evaluated, including bidirectional power flow, high resistance fault, different fault types, loading conditions and signals with noise.

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A q component‐based adaptive protection coordination optimisation using overcurrent relays in coordination with fuses for hybrid microgrid

Cited by 9 publications

References 32 publications

Automation of Methodology for Analysis of Overcurrent Protection Functions in Electrical Power Systems

Automation of Methodology for Analysis of Overcurrent Protection Functions in Electrical Power Systems

Investigating the performance of non‐standard characteristics‐based overcurrent relays and their optimum coordination in distributed generators connected networks

Protection of converter dominated MV microgrid using changes in current's phase angle

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