Distributed generation impact on reliability and power quality indices

Author

McDermott, Thomas E. ; Dugan, Roger C.

Author_Institution

Electrotek Concepts, Clairton, PA, USA

fYear

2002

fDate

6/24/1905 12:00:00 AM

Abstract

Properly sited distributed generation (DG) can increase the feeder capacity limit, but this does not necessarily produce an improvement in system reliability or power quality, as quantified by standard indices. The DG may have a positive impact on reliability through faster system restoration following a fault. The DG can also improve reliability for the owner, and may reduce the severity of voltage sags near the DG. Indices normalized to the number of customers dilute these positive benefits. The DG often has a negative impact on reliability indices through sympathetic tripping, required changes to utility overcurrent device settings, and increased fuse blowing. The utility cannot assume DG automatically improves system reliability, and action may be required to ensure that reliability does not actually degrade for other customers

Keywords

electric power generation; power distribution reliability; power supply quality; power system relaying; power system restoration; distributed generation impact; feeder capacity limit; fuse blowing; power quality indices; reliability indices; standard indices; sympathetic tripping; system restoration; system restoration operations; utility reclosing; voltage sags; voltage sags severity reduction; Distributed control; Environmental economics; Investments; Power generation economics; Power quality; Power system reliability; Power system restoration; Substations; USA Councils; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Rural Electric Power Conference, 2002. 2002 IEEE

Conference_Location

Colorado Springs, CO

Print_ISBN

0-7803-7470-3

Type

conf

DOI

10.1109/.2002.1002301

Filename

1002301