A practical protection coordination strategy applied to secondary and facility microgrids

Dae Geun Jin; Jong Chan Choi; Dong Jun Won; Hak Ju Lee; Woo Kyu Chae; Jung Sung Park

doi:10.3390/en5093248

A practical protection coordination strategy applied to secondary and facility microgrids

Dae Geun Jin
, Jong Chan Choi
, Dong Jun Won
, Hak Ju Lee
, Woo Kyu Chae
, Jung Sung Park

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

In a conventional distribution system, protection algorithms are designed to operate on a unidirectional high fault-current level. In a microgrid, a fault current from distributed generation (DG) may bring about a relay malfunction because of the bidirectional and relatively small fault current. Therefore, the conventional protection scheme is not applicable to microgrids and a new protection method must be developed. In this paper, two protection coordination algorithms which can be applied for facility and secondary microgrids are proposed, respectively. The proposed protection algorithms eliminate faults not by the EMS signal but by directional relays. Moreover, this makes the algorithms flexible regardless of the types and numbers of DG. The proposed protection algorithms were simulated at the KEPCO RI Microgrid Demonstration Site.

Original language	English
Pages (from-to)	3248-3265
Number of pages	18
Journal	Energies
Volume	5
Issue number	9
DOIs	https://doi.org/10.3390/en5093248
State	Published - Sep 2012
Externally published	Yes

Keywords

Distributed generation
Fault current
Microgrid
Protection coordination
Protection device

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10.3390/en5093248

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title = "A practical protection coordination strategy applied to secondary and facility microgrids",

abstract = "In a conventional distribution system, protection algorithms are designed to operate on a unidirectional high fault-current level. In a microgrid, a fault current from distributed generation (DG) may bring about a relay malfunction because of the bidirectional and relatively small fault current. Therefore, the conventional protection scheme is not applicable to microgrids and a new protection method must be developed. In this paper, two protection coordination algorithms which can be applied for facility and secondary microgrids are proposed, respectively. The proposed protection algorithms eliminate faults not by the EMS signal but by directional relays. Moreover, this makes the algorithms flexible regardless of the types and numbers of DG. The proposed protection algorithms were simulated at the KEPCO RI Microgrid Demonstration Site.",

keywords = "Distributed generation, Fault current, Microgrid, Protection coordination, Protection device",

author = "Jin, \{Dae Geun\} and Choi, \{Jong Chan\} and Won, \{Dong Jun\} and Lee, \{Hak Ju\} and Chae, \{Woo Kyu\} and Park, \{Jung Sung\}",

year = "2012",

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T1 - A practical protection coordination strategy applied to secondary and facility microgrids

AU - Jin, Dae Geun

AU - Choi, Jong Chan

AU - Won, Dong Jun

AU - Lee, Hak Ju

AU - Chae, Woo Kyu

AU - Park, Jung Sung

PY - 2012/9

Y1 - 2012/9

N2 - In a conventional distribution system, protection algorithms are designed to operate on a unidirectional high fault-current level. In a microgrid, a fault current from distributed generation (DG) may bring about a relay malfunction because of the bidirectional and relatively small fault current. Therefore, the conventional protection scheme is not applicable to microgrids and a new protection method must be developed. In this paper, two protection coordination algorithms which can be applied for facility and secondary microgrids are proposed, respectively. The proposed protection algorithms eliminate faults not by the EMS signal but by directional relays. Moreover, this makes the algorithms flexible regardless of the types and numbers of DG. The proposed protection algorithms were simulated at the KEPCO RI Microgrid Demonstration Site.

AB - In a conventional distribution system, protection algorithms are designed to operate on a unidirectional high fault-current level. In a microgrid, a fault current from distributed generation (DG) may bring about a relay malfunction because of the bidirectional and relatively small fault current. Therefore, the conventional protection scheme is not applicable to microgrids and a new protection method must be developed. In this paper, two protection coordination algorithms which can be applied for facility and secondary microgrids are proposed, respectively. The proposed protection algorithms eliminate faults not by the EMS signal but by directional relays. Moreover, this makes the algorithms flexible regardless of the types and numbers of DG. The proposed protection algorithms were simulated at the KEPCO RI Microgrid Demonstration Site.

KW - Distributed generation

KW - Fault current

KW - Microgrid

KW - Protection coordination

KW - Protection device

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DO - 10.3390/en5093248

M3 - Article

AN - SCOPUS:84866550172

SN - 1996-1073

VL - 5

SP - 3248

EP - 3265

JO - Energies

JF - Energies

IS - 9

ER -

A practical protection coordination strategy applied to secondary and facility microgrids

Abstract

Keywords

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