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Enhancing Cathodic Protection System Design and Operation Efficiency by Numerical Modeling

Cathodic protection (CP) is a well-established technique that effectively prevents corrosion of metals by adjusting the equilibrium potential of metallic structures in an electronegative direction. As the applied current increases, it reduces the anodic dissolution rate, thus leading to a decrease in the corrosion rate. The effectiveness of CP can be confirmed by measuring the protection potential values along the structures, ensuring the uniformity of the applied current, and observing the resultant potential distribution in the field.

Product Number: MECC23-20032-SG
Author: Seonyeob Li; Ashwaq Al Jasmi; Sungwon Jung; Il Yoo; Omar El Sinnary; Kyeong-Wan Park
Publication Date: 2023
$20.00
$20.00
$20.00

Cathodic protection (CP) is widely used for protection of metallic structures from corrosion. However, an empirical approach during design and the limited coverage of CP monitoring activities can cause nonuniform potential distribution throughout the system which results in the local area vulnerable to corrosion regardless of applied CP. The use of numerical modeling tools based on finite element or boundary element methods can provide reliable and quantitative solutions to predict the CP performance. Numerical approach also supports to analyze the effectiveness of CP system and pinpoint the weak area in the whole system if it is compared with field data. In this paper case studies showing the benefits of numerical analysis to optimize the CP systems is presented, which include a microbiologically influenced corrosion of the underground steel pipeline beneath the disbonded coating and a digital twin approach of pipeline CP network based on a forecast of performance by the combination of numerical modeling and field CP data analysis to fully maximize the benefits of CP is introduced.

Cathodic protection (CP) is widely used for protection of metallic structures from corrosion. However, an empirical approach during design and the limited coverage of CP monitoring activities can cause nonuniform potential distribution throughout the system which results in the local area vulnerable to corrosion regardless of applied CP. The use of numerical modeling tools based on finite element or boundary element methods can provide reliable and quantitative solutions to predict the CP performance. Numerical approach also supports to analyze the effectiveness of CP system and pinpoint the weak area in the whole system if it is compared with field data. In this paper case studies showing the benefits of numerical analysis to optimize the CP systems is presented, which include a microbiologically influenced corrosion of the underground steel pipeline beneath the disbonded coating and a digital twin approach of pipeline CP network based on a forecast of performance by the combination of numerical modeling and field CP data analysis to fully maximize the benefits of CP is introduced.