Title :
Tension and Ampacity Monitoring System for Overhead Lines
Author :
Albizu, Igor ; Fernandez, Elvira ; Eguia, Pablo ; Torres, Esther ; Mazón, Angel Javier
Author_Institution :
Dept. of Electr. Eng., Univ. of the Basque Country UPV/EHU, Bilbao, Spain
Abstract :
Real-time monitoring allows the determination of the line state and the calculation of the actual rating value. The real-time monitoring systems measure sag, conductor tension, conductor temperature, or weather-related magnitudes. In this paper, a new ampacity monitoring system for overhead lines, based on the conductor tension, the ambient temperature, the solar radiation, and the current intensity is presented. The measurements are transmitted via general-packet radio service to a control center where a software program calculates the ampacity value. The system takes the creep deformation experienced by the conductors during their lifetime into account and calibrates the tension-temperature reference and the maximum-allowable temperature in order to obtain the ampacity. The system includes hardware implementation and remote-control software.
Keywords :
power engineering computing; power overhead lines; solar radiation; ambient temperature; ampacity monitoring system; ampacity value; conductor temperature; conductor tension; control center; creep deformation; current intensity; general-packet radio service; hardware implementation; maximum-allowable temperature; overhead lines; realtime monitoring systems; remote-control software; software program; solar radiation; tension monitoring system; tension-temperature reference; weather-related magnitudes; Calibration; Conductors; Creep; Current measurement; Monitoring; Temperature measurement; Wind speed; Ampacity; overhead lines; rating; real-time monitoring;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2012.2213308
