Electrical Resistivity Mapping of a Portion of Eket- Portharcourt Pipeline Route for Potential Corrosivity
Student: samuel eniola omodudu (Thesis, 2025)
Department of Geophysics
Federal University Oye-Ekiti, Ekiti State
Abstract
Soil corrosion poses a significant threat to buried pipelines’ integrity and reliability. This study uses electrical resistivity mapping to assess soil corrosivity along the Eket-Port Harcourt pipeline route, identifying high-risk areas based on soil resistivity, moisture, and chemical composition. Field investigations, including resistivity surveys, soil sampling, and environmental monitoring, created spatial maps of corrosion risk zones, correlating soil characteristics with corrosion rates. Key findings show low resistivity correlates with high corrosion potential, revealing hotspots for targeted maintenance and mitigation. The study highlights electrical resistivity mapping as an effective tool for proactive soil corrosivity assessment and pipeline integrity management.
Keywords
For the full publication, please contact the author directly at: omodudu.samuel.191160@fuoye.edu.ng
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- Federal Polytechnic, Mubi, Adamawa State 20
- Federal Polytechnic, Nasarawa, Nasarawa State 59
- Federal Polytechnic, Nekede, Imo State 53
- Federal Polytechnic, offa, Kwara State 18
- Federal Polytechnic, Oko, Anambra State 8
- Federal School of Biomedical Engineering, (LUTH), Idi-Araba, Lagos State 1
- Federal School of Surveying, Oyo, Oyo State 7
- Federal University of Agriculture, Abeokuta, Ogun State 19
- Federal University of Petroleum Resources, Effurun, Delta State 77
- Federal University of Technology Akure, Ondo State 23