Title
Parametric Studies of the Formation of Calcareous Deposits on Cathodically Protected Steel in Seawater
Document Type
Article
Publication Title
Journal of the Electrochemical Society
Abstract
A first principle mathematical model has been used to study the effects of ocean environment and cathodic protection on the formation of calcareous deposits and their ability to reduce the cathodic current density. These parameters include applied potential, rotation speed, temperature, salinity, and depth. The results showed the applied potential strongly influences the formation of calcareous deposits and their ability to reduce the cathodic current density. Among the environmental factors, rotation speed has the most influence on the cathodic current density. Salinity slightly influences the cathodic current density over the range of interest. Temperature is much more influential than salinity on the ability of calcareous deposits to reduce the cathodic current density. The results from modeling showed the formation rate of calcareous deposits is much lower at 5°C than at room temperature. The depth is very critical not only to cathodic current density but also to the formation of calcareous deposits in seawater. The formation of calcareous deposits would be expected to be slower and the deposits would contain more Mg(OH)2 in deep water. © 1993, The Electrochemical Society, Inc. All rights reserved.
First Page
1275
Last Page
1280
DOI
10.1149/1.2220970
Publication Date
1-1-1993
Recommended Citation
Yan, J., White, R., & Griffin, R. (1993). Parametric Studies of the Formation of Calcareous Deposits on Cathodically Protected Steel in Seawater. Journal of the Electrochemical Society, 140 (5), 1275-1280. https://doi.org/10.1149/1.2220970