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METE523 MOLTEN SALT ELECTROLYSIS

Course Objectives

Explain terminologies, concepts and relationships governing the laws and relationships related to electrochemistry and molten salt electrolysis,

Do applications of; resistance, cell potential and overpotential computations,

Do potential and energy computations for electrodeposition, electrodissolution and reversible cells;

Use electrochemical consepts to discuss topics in materials processing.

Course Content

Physicochemical properties of melts; structure of melts. Thermodynamics of molten salt mixtures; activity models, melts with common ion, complex formation, reciprocal salt systems. Galvanic concentration cells, membrane potential. Electrolysis in molten salts, Faraday's law, metal solubility, current efficiency, electrode kinetics. Industrial applications; Hall-Heroult process, magnesium electrolysis.

Course Learning Outcomes

An ability to apply knowlwdge of electrochemistry in materials processing;

An ability to desing and calculate data related to electrochemical processes in metallurgical and materials engineering;

An ability to design a system,component or process to meet desired needs within realistic constraints such as economic, environmental, social, polytical, ethical, health and saftety, manufacturability and sustainability;

An ability to identify, to formulate, and solve engineering problems;

The broad education necessary to understand the impact of engineering solutions in global and societal context;

A knowledge of the scientific and engineering principles underlying the four major elements of the field; structure, properties, processing and performance related to material systems;

An ability to apply and integrate knowledge from each of the four major elements of the field to solve materials and/or process selection and design problems.