Electrochemical characterisation of a unique rotating parallel disc device for flow-accelerated corrosion research

Mcneilly, Ian

doi:10.25946/13459733

Electrochemical characterisation of a unique rotating parallel disc device for flow-accelerated corrosion research

thesis

posted on 2017-12-06, 00:00 authored by Ian Mcneilly

"This thesis presents the electrochemical characterisation of a novel device that has been designed to facilitate the study of flow-accelerated corrosion (FAC) at a metal electrode under high shear rate flow conditions"--P. 1.

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Location

Central Queensland University

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I hereby grant to Central Queensland University or its agents the right to archive and to make available my thesis or dissertation in whole or in part through Central Queensland University’s Institutional Repository, ACQUIRE, in all forms of media, now or hereafter known. I retain all copyright, including the right to use future works (such as articles or books), all or part of this thesis or dissertation.

Open Access

Yes

External Author Affiliations

Faculty of Sciences, Engineering and Health;

Era Eligible

No

Supervisor

Associate Professor David Druskovich ; Dr Jason Connor

Thesis Type

Doctoral Thesis

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Keywords

Fluid flow rates Corrosion in plant environments Corrosion Mass transfer coefficients Wall shear rates Colloid and Surface Chemistry

Licence

CQUniversity Thesis 1.0

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Electrochemical characterisation of a unique rotating parallel disc device for flow-accelerated corrosion research

History

Location

Additional Rights

Open Access

External Author Affiliations

Era Eligible

Supervisor

Thesis Type

Usage metrics

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Keywords

Licence

Exports