Stability of DC Distribution Systems: An Algebraic Derivation

Nils H. van der Blij; Laura M. Ramirez-Elizondo; Matthijs T. J. Spaan; Pavol Bauer

doi:10.3390/en10091412

Stability of DC Distribution Systems: An Algebraic Derivation

Nils H. van der Blij, Laura M. Ramirez-Elizondo, Matthijs T. J. Spaan, Pavol Bauer

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Abstract

Instability caused by low inertia and constant power loads is a major challenge of DC distribution grids. Previous research uses oversimplified models or does not provide general rules for stability. Therefore, a comprehensive approach to analyze the stability of DC distribution systems is desired. This paper presents a method to algebraically analyze the stability of any DC distribution system through the eigenvalues of its state-space matrices. Furthermore, using this method, requirements are found for the stability of three example systems. Additionally, a sensitivity analysis is performed, which considers the effect of several system parameters on the stability and disputes some overgeneralized conclusions of previous research. Moreover, various simulations are performed to illustrate the dynamic behavior of a stable and an unstable DC distribution system.

Original language	English
Pages (from-to)	1-17
Number of pages	17
Journal	Energies
Volume	10
Issue number	9
DOIs	https://doi.org/10.3390/en10091412
Publication status	Published - 2017

Keywords

DC distribution
eigenvalues
sensitivity analysis
stability
state-space

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title = "Stability of DC Distribution Systems: An Algebraic Derivation",

abstract = "Instability caused by low inertia and constant power loads is a major challenge of DC distribution grids. Previous research uses oversimplified models or does not provide general rules for stability. Therefore, a comprehensive approach to analyze the stability of DC distribution systems is desired. This paper presents a method to algebraically analyze the stability of any DC distribution system through the eigenvalues of its state-space matrices. Furthermore, using this method, requirements are found for the stability of three example systems. Additionally, a sensitivity analysis is performed, which considers the effect of several system parameters on the stability and disputes some overgeneralized conclusions of previous research. Moreover, various simulations are performed to illustrate the dynamic behavior of a stable and an unstable DC distribution system.",

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T1 - Stability of DC Distribution Systems

T2 - An Algebraic Derivation

AU - van der Blij, Nils H.

AU - Ramirez-Elizondo, Laura M.

AU - Spaan, Matthijs T. J.

AU - Bauer, Pavol

PY - 2017

Y1 - 2017

N2 - Instability caused by low inertia and constant power loads is a major challenge of DC distribution grids. Previous research uses oversimplified models or does not provide general rules for stability. Therefore, a comprehensive approach to analyze the stability of DC distribution systems is desired. This paper presents a method to algebraically analyze the stability of any DC distribution system through the eigenvalues of its state-space matrices. Furthermore, using this method, requirements are found for the stability of three example systems. Additionally, a sensitivity analysis is performed, which considers the effect of several system parameters on the stability and disputes some overgeneralized conclusions of previous research. Moreover, various simulations are performed to illustrate the dynamic behavior of a stable and an unstable DC distribution system.

AB - Instability caused by low inertia and constant power loads is a major challenge of DC distribution grids. Previous research uses oversimplified models or does not provide general rules for stability. Therefore, a comprehensive approach to analyze the stability of DC distribution systems is desired. This paper presents a method to algebraically analyze the stability of any DC distribution system through the eigenvalues of its state-space matrices. Furthermore, using this method, requirements are found for the stability of three example systems. Additionally, a sensitivity analysis is performed, which considers the effect of several system parameters on the stability and disputes some overgeneralized conclusions of previous research. Moreover, various simulations are performed to illustrate the dynamic behavior of a stable and an unstable DC distribution system.

KW - DC distribution

KW - eigenvalues

KW - sensitivity analysis

KW - stability

KW - state-space

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SN - 1996-1073

VL - 10

SP - 1

EP - 17

JO - Energies

JF - Energies

IS - 9

ER -

Stability of DC Distribution Systems: An Algebraic Derivation

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Keywords

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