Modal representation of three-phase lines applying two transformation matrices: Evaluation of its eigenvectors
Contribuinte(s) |
Universidade Estadual Paulista (UNESP) |
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Data(s) |
27/05/2014
27/05/2014
01/12/2006
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Resumo |
The objective of this paper is to show an alternative representation in time domain of a non-transposed three-phase transmission line decomposed in its exact modes by using two transformation matrices. The first matrix is Clarke's matrix that is real, frequency independent, easily represented in computational transient programs (EMTP) and separates the line into Quasi-modes α, β and zero. After that, Quasi-modes a and zero are decomposed into their exact modes by using a modal transformation matrix whose elements can be synthesized in time domain through standard curve-fitting techniques. The main advantage of this alternative representation is to reduce the processing time because a frequency dependent modal transformation matrix of a three-phase line has nine elements to be represented in time domain while a modal transformation matrix of a two-phase line has only four elements. This paper shows modal decomposition process and eigenvectors of a non-transposed three-phase line with a vertical symmetry plane whose nominal voltage is 440 kV and line length is 500 km. ©2006 IEEE. |
Identificador |
http://dx.doi.org/10.1109/PES.2006.1709284 2006 IEEE Power Engineering Society General Meeting, PES. http://hdl.handle.net/11449/69251 10.1109/PES.2006.1709284 2-s2.0-35348813118 |
Idioma(s) |
eng |
Relação |
2006 IEEE Power Engineering Society General Meeting, PES |
Direitos |
closedAccess |
Palavras-Chave | #Electromagnetic transients analysis #Frequency domain analysis #Time domain analysis #Transmission line matrix methods #Line length #Transformation matrix #Curve fitting #Eigenvalues and eigenfunctions #Electric power transmission #Mathematical models #Transient analysis #Voltage control #Electric lines |
Tipo |
info:eu-repo/semantics/conferencePaper |