Title :
Overview of an automatic distribution fault location system at the United Illuminating Company
Author :
Sabin, Daniel ; Romero, Eduardo ; Manning, Robert ; Waclawiak, Marek
Author_Institution :
Electrotek Concepts, Inc., Beverly, MA, USA
Abstract :
In 2008, United Illuminating Company (UI) began a pilot project to use power quality monitors to locate faults on distribution feeders supplied by 13.8 kV systems. Fault measurements captured by the meters are downloaded automatically, integrated into a relational database, and processed for reactance calculations. The reactance calculations are combined with detailed distribution circuit models and geographic information system data to build estimated fault location tables and web-based map displays. The systems are integrated on the company intranet and used in real-time by numerous groups within UI including power quality engineers, control room operators, field operations, and distribution planning. The algorithm used for waveform processing can distinguish between single-phase faults, multi-phase faults, subcycle faults, and feeder energizing magnetizing inrush. This paper will present an overview of some of the parameters and practices for finding faults at UI.
Keywords :
geographic information systems; power distribution control; power distribution faults; power distribution planning; power supply quality; power system measurement; United Illuminating Company; Web-based map displays; automatic distribution fault location system; company intranet; control room operators; distribution circuit; distribution feeders; distribution planning; fault location tables; fault measurements; field operations; geographic information system data; multiphase faults; power quality engineers; power quality monitors; reactance calculations; single-phase faults; subcycle faults; voltage 13.8 kV; waveform processing; Circuit faults; Companies; Current measurement; Fault location; Monitoring; Power quality; Substations; fault location; geographic information system; power quality; power system restoration; power system transients; relational databases;
Conference_Titel :
Innovative Smart Grid Technologies Conference (ISGT), 2014 IEEE PES
Conference_Location :
Washington, DC
DOI :
10.1109/ISGT.2014.6816464
