Hybrid AC/DC microgrid test system simulation: grid-connected mode

Leony Ortiz; Rogelio Orizondo; Alexander Águila; Jorge W. González; Gabriel J. López; Idi Isaac

doi:10.1016/j.heliyon.2019.e02862

Hybrid AC/DC microgrid test system simulation: grid-connected mode

Leony Ortiz, Rogelio Orizondo, Alexander Águila, Jorge W. González, Gabriel J. López, Idi Isaac

Grupo de Investigación en Redes Eléctricas Inteligentes (GIREI)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

79 Citas (Scopus)

Resumen

In this paper, a Microgrid (MG) test model based on the 14-busbar IEEE distribution system is proposed. This model can constitute an important research tool for the analysis of electrical grids in its transition to Smart Grids (SG). The benchmark is used as a base case for power flow analysis and quality variables related with SG and holds distributed resources. The proposed MG consists of DC and AC buses with different types of loads and distributed generation at two voltage levels. A complete model of this MG has been simulated using the MATLAB/Simulink environmental simulation platform. The proposed electrical system will provide a base case for other studies such as: reactive power compensation, stability and inertia analysis, reliability, demand response studies, hierarchical control, fault tolerant control, optimization and energy storage strategies.

Idioma original	Inglés
Número de artículo	e02862
Páginas (desde-hasta)	21
Publicación	Heliyon
Volumen	5
N.º	12
DOI	https://doi.org/10.1016/j.heliyon.2019.e02862
Estado	Publicada - dic. 2019

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title = "Hybrid AC/DC microgrid test system simulation: grid-connected mode",

abstract = "In this paper, a Microgrid (MG) test model based on the 14-busbar IEEE distribution system is proposed. This model can constitute an important research tool for the analysis of electrical grids in its transition to Smart Grids (SG). The benchmark is used as a base case for power flow analysis and quality variables related with SG and holds distributed resources. The proposed MG consists of DC and AC buses with different types of loads and distributed generation at two voltage levels. A complete model of this MG has been simulated using the MATLAB/Simulink environmental simulation platform. The proposed electrical system will provide a base case for other studies such as: reactive power compensation, stability and inertia analysis, reliability, demand response studies, hierarchical control, fault tolerant control, optimization and energy storage strategies.",

keywords = "Distributed resources, Electrical engineering, Hybrid energy systems, Microgrid benchmark, Power converter, Power flow, Power system operation, Smart grid technology, System diagnostics, electrical engineering",

author = "Leony Ortiz and Rogelio Orizondo and Alexander {\'A}guila and Gonz{\'a}lez, {Jorge W.} and L{\'o}pez, {Gabriel J.} and Idi Isaac",

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T2 - grid-connected mode

AU - Ortiz, Leony

AU - Orizondo, Rogelio

AU - Águila, Alexander

AU - González, Jorge W.

AU - López, Gabriel J.

AU - Isaac, Idi

PY - 2019/12

Y1 - 2019/12

N2 - In this paper, a Microgrid (MG) test model based on the 14-busbar IEEE distribution system is proposed. This model can constitute an important research tool for the analysis of electrical grids in its transition to Smart Grids (SG). The benchmark is used as a base case for power flow analysis and quality variables related with SG and holds distributed resources. The proposed MG consists of DC and AC buses with different types of loads and distributed generation at two voltage levels. A complete model of this MG has been simulated using the MATLAB/Simulink environmental simulation platform. The proposed electrical system will provide a base case for other studies such as: reactive power compensation, stability and inertia analysis, reliability, demand response studies, hierarchical control, fault tolerant control, optimization and energy storage strategies.

AB - In this paper, a Microgrid (MG) test model based on the 14-busbar IEEE distribution system is proposed. This model can constitute an important research tool for the analysis of electrical grids in its transition to Smart Grids (SG). The benchmark is used as a base case for power flow analysis and quality variables related with SG and holds distributed resources. The proposed MG consists of DC and AC buses with different types of loads and distributed generation at two voltage levels. A complete model of this MG has been simulated using the MATLAB/Simulink environmental simulation platform. The proposed electrical system will provide a base case for other studies such as: reactive power compensation, stability and inertia analysis, reliability, demand response studies, hierarchical control, fault tolerant control, optimization and energy storage strategies.

KW - Distributed resources

KW - Electrical engineering

KW - Hybrid energy systems

KW - Microgrid benchmark

KW - Power converter

KW - Power flow

KW - Power system operation

KW - Smart grid technology

KW - System diagnostics

KW - electrical engineering

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Hybrid AC/DC microgrid test system simulation: grid-connected mode

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