Stretching the limits of power system analysis

The historic context, technical requirements, and current performance of power system analysis tools are reviewed. The focus of this discussion is on the evolution and future direction of computer analysis of power systems, concentrating on transmission system planning and operation. Physical design...

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Veröffentlicht in:	IEEE computer applications in power 1993-01, Vol.6 (1), p.16-21
1. Verfasser:	Mitsche, J.V.
Format:	Artikel
Sprache:	eng
Schlagworte:	240200 - Power System Networks, Transmission & Distribution- (1990-) Applied sciences COMPUTERIZED SIMULATION CONTROL Costs ECONOMICS Electrical engineering. Electrical power engineering Electrical power engineering ELECTRICAL TRANSIENTS Exact sciences and technology Frequency FREQUENCY CONTROL MATHEMATICAL MODELS OPERATION PLANNING POWER DENSITY POWER DISTRIBUTION SYSTEMS Power engineering and energy Power networks and lines Power system analysis computing Power system planning Power system protection Power system simulation Power system transients POWER TRANSMISSION AND DISTRIBUTION SIMULATION SURGES Systems engineering and theory Theory. Simulation TRANSIENTS VOLTAGE DROP
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description	The historic context, technical requirements, and current performance of power system analysis tools are reviewed. The focus of this discussion is on the evolution and future direction of computer analysis of power systems, concentrating on transmission system planning and operation. Physical design, protection coordination, and generation planning issues will be referred to only in this context. The physical characteristics of electric power systems, their problems, and how today's power system analysis tools respond to these requirements are reviewed.< >
doi_str_mv	10.1109/67.180430
format	Article
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subjects	240200 - Power System Networks, Transmission & Distribution- (1990-) Applied sciences COMPUTERIZED SIMULATION CONTROL Costs ECONOMICS Electrical engineering. Electrical power engineering Electrical power engineering ELECTRICAL TRANSIENTS Exact sciences and technology Frequency FREQUENCY CONTROL MATHEMATICAL MODELS OPERATION PLANNING POWER DENSITY POWER DISTRIBUTION SYSTEMS Power engineering and energy Power networks and lines Power system analysis computing Power system planning Power system protection Power system simulation Power system transients POWER TRANSMISSION AND DISTRIBUTION SIMULATION SURGES Systems engineering and theory Theory. Simulation TRANSIENTS VOLTAGE DROP
title	Stretching the limits of power system analysis
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