Electrochemical corrosion probes designed based on an electrochemically integrated multielectrode
array has been used as a practical means of acquiring in-situ and site-specific data from ‘invisible’
underground gas and water pipelines. Field and semi-field tests have been conducted to assess these
probes for providing early warning of potential structural failure due to localized corrosion under
complex buried pipeline conditions. Electrode array-based corrosion probes were successfully
deployed in selected locations across Victoria Australia. The probes performed as expected, providing
a new point of view over the field conditions and the corrosion processes affecting buried pipelines. In
general, it was found that for bare metal probes the level of cathodic protection (CP) appeared to be
one of the main factors determining corrosion susceptibility. On the other hand, for probes designed to
simulate corrosion under disbonded coating areas, the hydrogeological conditions around the pipe were
found to play a more important role than the level of CP applied. This paper also provides a brief
discussion on future prospects.
History
Event
National Association of Corrosion Engineers International. Conference (2019 : Nashville, Tenn.)
Series
National Association of Corrosion Engineers International Conference
Pagination
1 - 15
Publisher
NACE International
Location
Nashville, Tenn.
Place of publication
Houston, Tex.
Start date
2019-03-24
End date
2019-03-28
Language
eng
Publication classification
E1 Full written paper - refereed
Copyright notice
2019, NACE International
Editor/Contributor(s)
[Unknown]
Title of proceedings
CORROSION 2019 : Proceedings of the CORROSION 2019 Conference & Expo