Experiments on a real-time energy management system for islanded prosumer microgrids

Carlos A. Macana; Hemanshu R. Pota; Quanyan Zhu; Josep M. Guerrero; Juan C. Vasquez

doi:10.3390/electronics8090925

Experiments on a real-time energy management system for islanded prosumer microgrids

Carlos A. Macana^*, Hemanshu R. Pota, Quanyan Zhu, Josep M. Guerrero, Juan C. Vasquez

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

This paper presents an experimental demonstration of a novel real-time Energy Management System (EMS) for inverter-based microgrids to achieve optimal economic operation using a simple dynamic algorithm without offline optimization process requirements. The dynamic algorithm solves the economic dispatch problem offering an adequate stability performance and an optimal power reference tracking under sudden load and generation changes. Convergence, optimality and frequency regulation properties of the real-time EMS are shown, and the effectiveness and compatibility with inner and primary controllers are validated in experiments, showing better performance on optimal power tracking and frequency regulation than conventional droop control power sharing techniques.

Original language	English
Article number	925
Journal	Electronics (Switzerland)
Volume	8
Issue number	9
Number of pages	17
ISSN	2079-9292
DOIs	https://doi.org/10.3390/electronics8090925
Publication status	Published - Aug 2019

Keywords

Cyber-physical systems
Energy management systems
Microgrids
Power electronics
Power sharing control

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10.3390/electronics8090925

electronics-08-00925Final published version, 1.07 MBLicence: CC BY 4.0

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title = "Experiments on a real-time energy management system for islanded prosumer microgrids",

abstract = "This paper presents an experimental demonstration of a novel real-time Energy Management System (EMS) for inverter-based microgrids to achieve optimal economic operation using a simple dynamic algorithm without offline optimization process requirements. The dynamic algorithm solves the economic dispatch problem offering an adequate stability performance and an optimal power reference tracking under sudden load and generation changes. Convergence, optimality and frequency regulation properties of the real-time EMS are shown, and the effectiveness and compatibility with inner and primary controllers are validated in experiments, showing better performance on optimal power tracking and frequency regulation than conventional droop control power sharing techniques.",

keywords = "Cyber-physical systems, Energy management systems, Microgrids, Power electronics, Power sharing control",

author = "Macana, {Carlos A.} and Pota, {Hemanshu R.} and Quanyan Zhu and Guerrero, {Josep M.} and Vasquez, {Juan C.}",

year = "2019",

month = aug,

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AU - Macana, Carlos A.

AU - Pota, Hemanshu R.

AU - Zhu, Quanyan

AU - Guerrero, Josep M.

AU - Vasquez, Juan C.

PY - 2019/8

Y1 - 2019/8

N2 - This paper presents an experimental demonstration of a novel real-time Energy Management System (EMS) for inverter-based microgrids to achieve optimal economic operation using a simple dynamic algorithm without offline optimization process requirements. The dynamic algorithm solves the economic dispatch problem offering an adequate stability performance and an optimal power reference tracking under sudden load and generation changes. Convergence, optimality and frequency regulation properties of the real-time EMS are shown, and the effectiveness and compatibility with inner and primary controllers are validated in experiments, showing better performance on optimal power tracking and frequency regulation than conventional droop control power sharing techniques.

AB - This paper presents an experimental demonstration of a novel real-time Energy Management System (EMS) for inverter-based microgrids to achieve optimal economic operation using a simple dynamic algorithm without offline optimization process requirements. The dynamic algorithm solves the economic dispatch problem offering an adequate stability performance and an optimal power reference tracking under sudden load and generation changes. Convergence, optimality and frequency regulation properties of the real-time EMS are shown, and the effectiveness and compatibility with inner and primary controllers are validated in experiments, showing better performance on optimal power tracking and frequency regulation than conventional droop control power sharing techniques.

KW - Cyber-physical systems

KW - Energy management systems

KW - Microgrids

KW - Power electronics

KW - Power sharing control

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DO - 10.3390/electronics8090925

M3 - Journal article

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VL - 8

JO - Electronics (Switzerland)

JF - Electronics (Switzerland)

IS - 9

M1 - 925

ER -

Experiments on a real-time energy management system for islanded prosumer microgrids

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Keywords

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