MCL443: Difference between revisions
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| credits = 3 | | credits = 3 | ||
| credit_structure = 3-0-0 | | credit_structure = 3-0-0 | ||
| pre_requisites = MCL140 & MCL242 or MCL141 and EC 80 | | pre_requisites = [[MCL140]] & [[MCL242]] or [[MCL141]] and EC 80 | ||
| overlaps = CLL722 (30%), CLL720 (10%), CLL721 (15%) | | overlaps = [[CLL722]] (30%), [[CLL720]] (10%), [[CLL721]] (15%) | ||
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== MCL443 : Electrochemical Energy Systems == | == MCL443 : Electrochemical Energy Systems == | ||
Introduction to electrochemical systems – electrochemical power sources, nomenclature, survey of common types. Thermodynamics – thermodynamic functions, chemical and electrochemical potentials, temperature dependence, activity dependence. Reaction kinetics – electrical double layer, kinetics, activation energy of reactions, current-voltage relationship, polarization and losses, charge transfer kinetics, performance criteria. Transport processes – infinitely dilute solutions, concentrated solutions, thermal effects, fluid mechanics. Modeling of electrochemical systems – governing equations, assumptions, boundary conditions of species and charge. Thermal management. Environmental impact. | Introduction to electrochemical systems – electrochemical power sources, nomenclature, survey of common types. Thermodynamics – thermodynamic functions, chemical and electrochemical potentials, temperature dependence, activity dependence. Reaction kinetics – electrical double layer, kinetics, activation energy of reactions, current-voltage relationship, polarization and losses, charge transfer kinetics, performance criteria. Transport processes – infinitely dilute solutions, concentrated solutions, thermal effects, fluid mechanics. Modeling of electrochemical systems – governing equations, assumptions, boundary conditions of species and charge. Thermal management. Environmental impact. | ||
Latest revision as of 16:38, 14 April 2026
| MCL443 | |
|---|---|
| Electrochemical Energy Systems | |
| Credits | 3 |
| Structure | 3-0-0 |
| Pre-requisites | MCL140 & MCL242 or MCL141 and EC 80 |
| Overlaps | CLL722 (30%), CLL720 (10%), CLL721 (15%) |
MCL443 : Electrochemical Energy Systems
Introduction to electrochemical systems – electrochemical power sources, nomenclature, survey of common types. Thermodynamics – thermodynamic functions, chemical and electrochemical potentials, temperature dependence, activity dependence. Reaction kinetics – electrical double layer, kinetics, activation energy of reactions, current-voltage relationship, polarization and losses, charge transfer kinetics, performance criteria. Transport processes – infinitely dilute solutions, concentrated solutions, thermal effects, fluid mechanics. Modeling of electrochemical systems – governing equations, assumptions, boundary conditions of species and charge. Thermal management. Environmental impact.