PMU-Driven Non-Preemptive Disconnection of Overhead Lines at the Approach or Break-Out of Forest Fires

TL;DR

This paper proposes a PMU-based real-time method for just-in-time disconnection of overhead lines to prevent forest fires, reducing false alarms and avoiding unnecessary outages.

Contribution

It introduces a novel PMU-driven approach utilizing ambient temperature and resistance changes for timely fire detection near overhead lines.

Findings

Effective detection of approaching fires in simulations

High accuracy with minimal false alarms

Potential for reducing unnecessary power outages

Abstract

The number and intensity of forest fires in the United States have been steadily increasing and causing massive economic and ecological damage. Overhead transmission and distribution lines are typically disconnected preemptively near fires, a practice that causes high social cost. Deployment of Phasor Measurement Units (PMUs) and their ability for synchronized real-time measurement of voltage and current inspire the here proposed method for the just-in-time disconnection of overhead lines at the ignition or approach of fires. PMUs can detect ambient temperature changes caused by fires through the change of line resistance. An ambient temperature model at the vicinity of a fire seat and the dynamic heat exchange model of the IEEE 738 dynamic line rating standard for bare overhead conductors are used in MATLAB Simulink to assess the performance of the proposed control method. Extensive testing shows that, under various conditions, the proposed technique can detect a forest fire approaching an overhead line, while avoiding, almost completely, any false alarms.