How to Detect Broken Conductors
23 Feb 2021
Energized broken conductors are a nightmare scenario for power systems engineers. Whilst they represent a small percentage of faults on the distribution network, their safety consequences are significant. Unlike phase to earth or line clash faults, broken conductors, particularly floating ones, can bring high voltage lines into close proximity of the general public.
Worse still, the most common protection techniques for overhead distribution lines, overcurrent and earth fault protection, cannot detect this scenario. This leaves detection up to eyewitness account or complaints of downstream brownout - a risky proposition.
However, there is a protection technique that addresses this safety risk in a cost effective and simple manner. This is negative phase sequence protection.
Essentially, Negative Phase Sequence Current is a single value measure of imbalance. And unlike Earth Fault Protection that requires a return path through earth, negative phase sequence looks at the imbalance across the three phases and determines whether a line is broken, or in technical jargon, “has a discontinuity”.
This gives Negative Phase Sequence protection the unique advantage of load indifference. No matter how much, or how little, current is flowing through three phases, NPS is measuring the imbalance rather than the absolute values. This allows NPS to detect broken conductors across the range of normal feeder operation, irrespective of load demands.
Implementing NPS Protection
Three phase protection devices on the overhead lines that are capable of vector calculations, such as pole mounted Auto-Reclosers, can read the currents on all three phases and derive the negative sequence current.
By adding Negative Phase Sequence protection to the conventional Overcurrent and Earth Fault protection implemented on most feeders, we can greatly reduce the protection blind spot (jargon: non-detection zone) of broken conductors.
Around the world, many utilities have implemented NPS protection on their distribution lines to mitigate this safety issue. A detailed paper on the calculations of these values is available for you at the following link:
“Our recloser products are not simply auto reclosers anymore. They are now advanced protection devices with significant value add and increased network safety through functionality like our broken conductor protection,” reports NOJA Power Group Managing Director Neil O’Sullivan.
NOJA Power are committed to a safe, sustainable and reliable electricity distribution grid, with experience serving 95 countries worldwide and over 65,000 installations. If you’d like to learn more, you can visit us at www.nojapower.com.au or contact your local NOJA Power Distributor.