Server maintenance is scheduled for Saturday, December 21st between 6am-10am CST.

During that time, parts of our website will be affected until maintenance is completed. Thank you for your patience.

Search
Filters
Close

11343 Study of AC Corrosion on Coated Pipeline Steel in Simulated Soil Solution

Product Number: 51300-11343-SG
ISBN: 2011 11343 CP
Author: Xin Xu, Lining Xu, Wei Liu, Minxu Lu
Publication Date: 2011
$0.00
$20.00
$20.00
Buried pipelines paralleling or crossing high voltage power line systems are often subjected to induced AC interference, which may cause serious corrosion risk. There have been many conclusions including size of coating defects, AC current density, etc. to estimate corrosion condition, but no industry standard evaluation criterion has been established. In this paper, the AC induced corrosion of coated pipeline was studied with coated specimens in simulated soil solution under various experimental conditions to determine the AC corrosion risk considering the cathodic protection, coating defects, AC current density, soil acidity/alkalinity, and the soil resistivity. It has been identified that failures in oil and gas transmission pipelines by destructive pitting may be caused by AC interference. Pitting corrosion was also studied in this paper by electrochemical measurements and AC corrosion mechanism was further analyzed. Specific morphology of characteristics of AC corrosion was observed by Scanning Electron Microscope (SEM) technical.

Keyword: AC interference, coating defects, evaluation criterion, pitting corrosion
Buried pipelines paralleling or crossing high voltage power line systems are often subjected to induced AC interference, which may cause serious corrosion risk. There have been many conclusions including size of coating defects, AC current density, etc. to estimate corrosion condition, but no industry standard evaluation criterion has been established. In this paper, the AC induced corrosion of coated pipeline was studied with coated specimens in simulated soil solution under various experimental conditions to determine the AC corrosion risk considering the cathodic protection, coating defects, AC current density, soil acidity/alkalinity, and the soil resistivity. It has been identified that failures in oil and gas transmission pipelines by destructive pitting may be caused by AC interference. Pitting corrosion was also studied in this paper by electrochemical measurements and AC corrosion mechanism was further analyzed. Specific morphology of characteristics of AC corrosion was observed by Scanning Electron Microscope (SEM) technical.

Keyword: AC interference, coating defects, evaluation criterion, pitting corrosion
Product tags
Also Purchased
Picture for 10104 Development of an Advanced Instrumentation for Assessing AC Corrosion Risk of Buried Pipelines
Available for download

10104 Development of an Advanced Instrumentation for Assessing AC Corrosion Risk of Buried Pipelines

Product Number: 51300-10104-SG
ISBN: 10104 2010 CP
Author: Fumio Kajiyama, Yasuo Nakamura
Publication Date: 2010
$20.00