Enhancement of linear ATC calculations by the incorporation of reactive power flows

Santiago Grijalva; Peter W. Sauer; James D. Weber

doi:10.1109/TPWRS.2003.810902

Enhancement of linear ATC calculations by the incorporation of reactive power flows

Santiago Grijalva, Peter W. Sauer, James D. Weber

Electrical and Computer Engineering

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

Abstract

Fast, accurate algorithms to compute network capabilities are indispensable for transfer-based electricity markets. Most transfer studies involve contingencies and multipattern scenarios that often can only be performed in reasonable time with the use of linear methods. One of the limitations of linear ATC is the error produced by neglecting the effect of reactive power flows in line loading. This paper describes a fast algorithm to incorporate this effect. The estimation of the line post-transfer complex flow is based on circle equations and a megavar-corrected megawatt limit. The method can be easily integrated into existing linear ATC software because the computation remains based on active power distribution factors. The algorithm is illustrated in a small example and the error correction demonstrated for transfers in larges systems.

Original language	English (US)
Pages (from-to)	619-624
Number of pages	6
Journal	IEEE Transactions on Power Systems
Volume	18
Issue number	2
DOIs	https://doi.org/10.1109/TPWRS.2003.810902
State	Published - May 2003

Keywords

Linear ATC
Reactive power

ASJC Scopus subject areas

Energy Engineering and Power Technology
Electrical and Electronic Engineering

Online availability

10.1109/TPWRS.2003.810902

Library availability

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title = "Enhancement of linear ATC calculations by the incorporation of reactive power flows",

abstract = "Fast, accurate algorithms to compute network capabilities are indispensable for transfer-based electricity markets. Most transfer studies involve contingencies and multipattern scenarios that often can only be performed in reasonable time with the use of linear methods. One of the limitations of linear ATC is the error produced by neglecting the effect of reactive power flows in line loading. This paper describes a fast algorithm to incorporate this effect. The estimation of the line post-transfer complex flow is based on circle equations and a megavar-corrected megawatt limit. The method can be easily integrated into existing linear ATC software because the computation remains based on active power distribution factors. The algorithm is illustrated in a small example and the error correction demonstrated for transfers in larges systems.",

keywords = "Linear ATC, Reactive power",

author = "Santiago Grijalva and Sauer, \{Peter W.\} and Weber, \{James D.\}",

note = "Manuscript received September 25, 2002. This work was supported in part by the NSF Grant NSF EEC 96-15792, the University of Illinois Power Affiliates Program, the Grainger endowments to the University of Illinois, and the Power Systems Engineering Research Center (PSERC). S. Grijalva and P. W. Sauer are with the University of Illinois, Urbana, IL 61801 USA (e-mail: [email protected]; [email protected]). J. D. Weber is with PowerWorld Corporation, Urbana, IL 61801 USA (e-mail: [email protected]). Digital Object Identifier 10.1109/TPWRS.2003.810902",

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AU - Weber, James D.

N1 - Manuscript received September 25, 2002. This work was supported in part by the NSF Grant NSF EEC 96-15792, the University of Illinois Power Affiliates Program, the Grainger endowments to the University of Illinois, and the Power Systems Engineering Research Center (PSERC). S. Grijalva and P. W. Sauer are with the University of Illinois, Urbana, IL 61801 USA (e-mail: [email protected]; [email protected]). J. D. Weber is with PowerWorld Corporation, Urbana, IL 61801 USA (e-mail: [email protected]). Digital Object Identifier 10.1109/TPWRS.2003.810902

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N2 - Fast, accurate algorithms to compute network capabilities are indispensable for transfer-based electricity markets. Most transfer studies involve contingencies and multipattern scenarios that often can only be performed in reasonable time with the use of linear methods. One of the limitations of linear ATC is the error produced by neglecting the effect of reactive power flows in line loading. This paper describes a fast algorithm to incorporate this effect. The estimation of the line post-transfer complex flow is based on circle equations and a megavar-corrected megawatt limit. The method can be easily integrated into existing linear ATC software because the computation remains based on active power distribution factors. The algorithm is illustrated in a small example and the error correction demonstrated for transfers in larges systems.

AB - Fast, accurate algorithms to compute network capabilities are indispensable for transfer-based electricity markets. Most transfer studies involve contingencies and multipattern scenarios that often can only be performed in reasonable time with the use of linear methods. One of the limitations of linear ATC is the error produced by neglecting the effect of reactive power flows in line loading. This paper describes a fast algorithm to incorporate this effect. The estimation of the line post-transfer complex flow is based on circle equations and a megavar-corrected megawatt limit. The method can be easily integrated into existing linear ATC software because the computation remains based on active power distribution factors. The algorithm is illustrated in a small example and the error correction demonstrated for transfers in larges systems.

KW - Linear ATC

KW - Reactive power

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Enhancement of linear ATC calculations by the incorporation of reactive power flows

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Keywords

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