Abstract
Metallic pipelines are protected from induced corrosion by the application of coating and
Cathodic Protection (CP) systems. The latter is achieved by keeping the pipeline at a constant
Direct Current (DC) voltage in relation to the surrounding soil. While this is conventionally meant
to arrest corrosion, the Alternating Current (AC) interference from high voltage transmission lines
has been a major problem to the CP potential systems of buried steel pipelines. Several research
studies dealing with this problem have been published, and a lot of research work is still on
going. This work focuses on assessing the stability of the CP potentials under the influence of AC
interference. Seven different CP potentials varying from −800 mV to −1200 mV were applied on steel
pipe specimen exposed to the AC interference with a varying AC voltage from 0–50 V. The results of
the laboratory investigation revealed that CP potential of −1150 mV was more stable under the
influence of AC interference, with just a minimal shift from the set value. The results from the
corrosion morphology tests on the pipelines using Scanning Electron Microscope (SEM) and Energy
Dispersive X-ray Spectroscopy (EDS) reveal the need for optimising the CP potential to provide
adequate or optimum protection to the pipelines. Thus, more research studies involving simulation
and field studies may lead to a major breakthrough
in improving protection potentials.