Development and application of a standstill parameter identification technique for the synchronous generator

Ahmed M.A. Oteafy; John N. Chiasson; Said Ahmed-Zaid

doi:10.1016/j.ijepes.2016.02.030

Development and application of a standstill parameter identification technique for the synchronous generator

Ahmed M.A. Oteafy
, John N. Chiasson
, Said Ahmed-Zaid

Electrical Engineering Department

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

16 Scopus citations

Abstract

This work presents the development of an offline standstill estimation technique, where the synchronous machine is locked at an arbitrary (but known) angle and is excited over a short period of time. The proposed time domain method requires few seconds of captured data in contrast to the well-known standard Standstill Frequency Response (SSFR) technique that could take more than 6 h to conduct. This is based on nonlinear least squares estimation and algebraic elimination theory. The resulting algorithm is non-iterative where the data is used to construct polynomials that are solved for a finite number of roots which determine the electrical parameter values. Experimental results are presented showing the efficacy of the technique in furnishing the parameters of a salient pole synchronous machine.

Original language	English
Pages (from-to)	222-231
Number of pages	10
Journal	International Journal of Electrical Power and Energy Systems
Volume	81
DOIs	https://doi.org/10.1016/j.ijepes.2016.02.030
State	Published - 1 Oct 2016

Keywords

Algebraic elimination theory
Offline parameter identification
Standstill tests
Synchronous generators

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10.1016/j.ijepes.2016.02.030

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title = "Development and application of a standstill parameter identification technique for the synchronous generator",

abstract = "This work presents the development of an offline standstill estimation technique, where the synchronous machine is locked at an arbitrary (but known) angle and is excited over a short period of time. The proposed time domain method requires few seconds of captured data in contrast to the well-known standard Standstill Frequency Response (SSFR) technique that could take more than 6 h to conduct. This is based on nonlinear least squares estimation and algebraic elimination theory. The resulting algorithm is non-iterative where the data is used to construct polynomials that are solved for a finite number of roots which determine the electrical parameter values. Experimental results are presented showing the efficacy of the technique in furnishing the parameters of a salient pole synchronous machine.",

keywords = "Algebraic elimination theory, Offline parameter identification, Standstill tests, Synchronous generators",

author = "Oteafy, \{Ahmed M.A.\} and Chiasson, \{John N.\} and Said Ahmed-Zaid",

note = "Publisher Copyright: {\textcopyright} 2016 Elsevier Ltd.",

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doi = "10.1016/j.ijepes.2016.02.030",

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T1 - Development and application of a standstill parameter identification technique for the synchronous generator

AU - Oteafy, Ahmed M.A.

AU - Chiasson, John N.

AU - Ahmed-Zaid, Said

PY - 2016/10/1

Y1 - 2016/10/1

N2 - This work presents the development of an offline standstill estimation technique, where the synchronous machine is locked at an arbitrary (but known) angle and is excited over a short period of time. The proposed time domain method requires few seconds of captured data in contrast to the well-known standard Standstill Frequency Response (SSFR) technique that could take more than 6 h to conduct. This is based on nonlinear least squares estimation and algebraic elimination theory. The resulting algorithm is non-iterative where the data is used to construct polynomials that are solved for a finite number of roots which determine the electrical parameter values. Experimental results are presented showing the efficacy of the technique in furnishing the parameters of a salient pole synchronous machine.

AB - This work presents the development of an offline standstill estimation technique, where the synchronous machine is locked at an arbitrary (but known) angle and is excited over a short period of time. The proposed time domain method requires few seconds of captured data in contrast to the well-known standard Standstill Frequency Response (SSFR) technique that could take more than 6 h to conduct. This is based on nonlinear least squares estimation and algebraic elimination theory. The resulting algorithm is non-iterative where the data is used to construct polynomials that are solved for a finite number of roots which determine the electrical parameter values. Experimental results are presented showing the efficacy of the technique in furnishing the parameters of a salient pole synchronous machine.

KW - Algebraic elimination theory

KW - Offline parameter identification

KW - Standstill tests

KW - Synchronous generators

UR - https://www.scopus.com/pages/publications/84960104489

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DO - 10.1016/j.ijepes.2016.02.030

M3 - Article

AN - SCOPUS:84960104489

SN - 0142-0615

VL - 81

SP - 222

EP - 231

JO - International Journal of Electrical Power and Energy Systems

JF - International Journal of Electrical Power and Energy Systems

ER -

Development and application of a standstill parameter identification technique for the synchronous generator

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Keywords

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