Applications of UV Inspection Technology

Electric grid and substations commissioning * Maintenance * Research * Environmental issues * Hazardeous

The awareness of electrical engineers to corona and arcing effects is growing in the last years and is backed up by worldwide research. Corona and arcing on power lines and substations. besides generating audio noise (envirnmental consideration) and radio interference (safety issues), accelerate degradation of various grid components such as ceramic and non ceramic insulators, and are indicators of defective components that may cause outage.

With the advent of non-ceramic insulators (NCI), as alternatives to traditional ceramic insulators, new maintenance concerns emerged. Polymer insulators, cheaper and easier to handle than the porcelain or glass insulators and therefore appealing to construction and maintenance managements, are susceptible to degradation by corona discharge. Corona activity creates corrosive substances, like nitrogen oxides and ozone, which degrade the polymer housing and allow moisture and acid penetrate the fiberglass rod and leading thereby to the insulator's failure. A fault on a polymer insulator usually progresses rapidly and may eventually lead to line drop.  Reliability of power lines with polymer insulators requires, therefore, efficient and regular UV inspection for corona and arcing, to allow corrective measures to be performed in time.

The DayCor® Bispectral systems, meet the request for a device for reliable and rapid location of corona and arcing in full daylight. DayCor® systems are being recognized by many utilities as indispensable inspection tools for a wide range of applications