Graduation Semester and Year
2016
Language
English
Document Type
Thesis
Degree Name
Master of Engineering in Mechanical Engineering
Department
Mechanical and Aerospace Engineering
First Advisor
Bo Yang
Second Advisor
Seiichi Nomura
Abstract
Corrosion is a natural deterioration phenomenon that throws profound adverse effects on the performance of structural steel in marine applications. Seawater consists of various corrosive components such as chlorine ions, sulphate ions and many more. These chemical components are mainly responsible for the corrosion phenomenon. Even though their bulk concentrations are known, their local concentrations and distribution in the vicinity of a steel surface where the corrosion occurs are yet unclear. Without the knowledge, would any approach to deal with the corrosion be empirical, at best. The main objective of the present thesis is to investigate the interfacial structure of an electrical double layer (EDL) and provide mechanistic understanding of the formation of an EDL at a steel surface in seawater environment. An analytical model is developed on basis of mass transport, electrostatics and fluid mechanics to simulate the specific system at a seawater-steel interface. Parameters such as voltage, corrosion flux and bulk concentrations are varied to examine their effects on the structure of the EDL and hopefully shed light on the mechanism of corrosion at the nanometer scale. The EDL at an anode is considered. The anions, such as SO42-, Cl-, OH-, which would be attracted to the anode, are included in the model. Many cations of corrosion products as well as Na+, SO42-, and other metal ions are also included. It is observed that when voltage increases in the low range from 0 to 0.6 V, the SO42- and Cl- concentrations rise at the metal surface. However, when the voltage is further increased, the SO42- and Cl- concentrations at the metal surface decreases. In contrast, the OH- concentration at voltage range from 0 to 0.6 is low near the metal surface, due to its low concentration in the bulk electrolyte at pH 7. At higher voltage, it however rises while OH- replacing SO42- and Cl- next to the metal surface. Attempt is made to interpret this phenomenon. It may be inferred that SO42- and Cl- should be responsible for corrosion, especially, pitting, in steel, at relatively low voltage. At higher voltages, surface coverage of OH- may retard the corrosion.
Keywords
EDL, Corrosion, Seawater
Disciplines
Aerospace Engineering | Engineering | Mechanical Engineering
License
This work is licensed under a Creative Commons Attribution-NonCommercial-Share Alike 4.0 International License.
Recommended Citation
Kale, Pratik Babanrao, "A Study of Electrical Double Layer Structure over a Corroding Steel Surface in Sea Water" (2016). Mechanical and Aerospace Engineering Theses. 1016.
https://mavmatrix.uta.edu/mechaerospace_theses/1016
Comments
Degree granted by The University of Texas at Arlington