On the Resilience Analysis of DC Microgrids With Power Buffer Control

Siyu ZHOU; Yangyang QIAN; Yan WAN; Zongli LIN; Yacov A. SHAMASH; Abhiram V.P. PREMAKUMAR; Ali DAVOUDI

doi:10.1109/TCSI.2024.3415966

On the Resilience Analysis of DC Microgrids With Power Buffer Control

Siyu ZHOU
, Yangyang QIAN
, Yan WAN^*
, Zongli LIN
, Yacov A. SHAMASH
, Abhiram V.P. PREMAKUMAR
, Ali DAVOUDI

^*Corresponding author for this work

Research output: Journal Publications › Journal Article (refereed) › peer-review

4 Citations (Scopus)

Abstract

In this study, we investigate the resilience of DC microgrids in the face of disturbances that could induce boost converter failures. We associate the converter failure conditions with disturbances and implement a power buffer control system, which prevents voltage collapse and promotes system stability. A new resilience model is proposed that considers general power mismatches for a comprehensive resilience evaluation. We further evaluate the resilience of an interconnected DC microgrid where the stability of the system is ensured through proofs and examine the role of power buffer control in enhancing resilience against disturbances. The results validate the significance of power buffer control in augmenting DC microgrid resilience. The hardware-in-the-loop experiment study demonstrates over 32% improvement of resilience using the proposed control.

Original language	English
Pages (from-to)	4233-4246
Number of pages	14
Journal	IEEE Transactions on Circuits and Systems I: Regular Papers
Volume	71
Issue number	9
Early online date	28 Jun 2024
DOIs	https://doi.org/10.1109/TCSI.2024.3415966
Publication status	Published - Sept 2024
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2004-2012 IEEE.

Funding

Department of Navy funded by the Office of Naval Research (Grant Number: N00014-22-1-2001 and N00014-23-1-2124)

Keywords

combined disturbance
DC microgrids
power buffers
resilience metric
voltage collapse

Access to Document

10.1109/TCSI.2024.3415966

Cite this

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title = "On the Resilience Analysis of DC Microgrids With Power Buffer Control",

abstract = "In this study, we investigate the resilience of DC microgrids in the face of disturbances that could induce boost converter failures. We associate the converter failure conditions with disturbances and implement a power buffer control system, which prevents voltage collapse and promotes system stability. A new resilience model is proposed that considers general power mismatches for a comprehensive resilience evaluation. We further evaluate the resilience of an interconnected DC microgrid where the stability of the system is ensured through proofs and examine the role of power buffer control in enhancing resilience against disturbances. The results validate the significance of power buffer control in augmenting DC microgrid resilience. The hardware-in-the-loop experiment study demonstrates over 32\% improvement of resilience using the proposed control.",

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author = "Siyu ZHOU and Yangyang QIAN and Yan WAN and Zongli LIN and SHAMASH, \{Yacov A.\} and PREMAKUMAR, \{Abhiram V.P.\} and Ali DAVOUDI",

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AU - ZHOU, Siyu

AU - QIAN, Yangyang

AU - WAN, Yan

AU - LIN, Zongli

AU - SHAMASH, Yacov A.

AU - PREMAKUMAR, Abhiram V.P.

AU - DAVOUDI, Ali

PY - 2024/9

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N2 - In this study, we investigate the resilience of DC microgrids in the face of disturbances that could induce boost converter failures. We associate the converter failure conditions with disturbances and implement a power buffer control system, which prevents voltage collapse and promotes system stability. A new resilience model is proposed that considers general power mismatches for a comprehensive resilience evaluation. We further evaluate the resilience of an interconnected DC microgrid where the stability of the system is ensured through proofs and examine the role of power buffer control in enhancing resilience against disturbances. The results validate the significance of power buffer control in augmenting DC microgrid resilience. The hardware-in-the-loop experiment study demonstrates over 32% improvement of resilience using the proposed control.

AB - In this study, we investigate the resilience of DC microgrids in the face of disturbances that could induce boost converter failures. We associate the converter failure conditions with disturbances and implement a power buffer control system, which prevents voltage collapse and promotes system stability. A new resilience model is proposed that considers general power mismatches for a comprehensive resilience evaluation. We further evaluate the resilience of an interconnected DC microgrid where the stability of the system is ensured through proofs and examine the role of power buffer control in enhancing resilience against disturbances. The results validate the significance of power buffer control in augmenting DC microgrid resilience. The hardware-in-the-loop experiment study demonstrates over 32% improvement of resilience using the proposed control.

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KW - power buffers

KW - resilience metric

KW - voltage collapse

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M3 - Journal Article (refereed)

AN - SCOPUS:85197658337

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JO - IEEE Transactions on Circuits and Systems I: Regular Papers

JF - IEEE Transactions on Circuits and Systems I: Regular Papers

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ER -

On the Resilience Analysis of DC Microgrids With Power Buffer Control

Abstract

Bibliographical note

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Keywords

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