The course aims to introduce the essential elements of electrochemical engineering with which illustrate the main applications in industrial processes. It also analyzes the major implications of the matter in the environmental field and in the production of electricity. Provide basic and applied electrochemistry culture essential to describe the behavior of electrochemical cells used in the energy field (batteries and fuel cells) and environmental (electrolysis cell).
The teaching module aims to provide the student engineer a culture based on electrochemistry and / or applied to industrial processes. At the end of the course the student should be able to analyze the kinetics of an electrochemical reaction and to carry out a preliminary design of an electrochemical reactor operating in galvanostatic or potentiostatic regime.
The course is based on theoretical lectures and laboratory experiments.
Electrochemical reactions
Electrochemical cell component
The rate of the electrochemical reactions
Transport processes
Electrochemical reactors and their performance
Electrochemical reactor design
Applications of the electrochemical technology
Laboratory experiments: cyclic voltammetries, rotating electrode, fuel cell, electrochemical oxidation of organic compounds
Lecture notes
F. Walsh: A first course in Electrochemical Engineering. ECC edition
D. Pletcher: A first course in electrode Process, ECC editions
Ricevimento: On appointment
ANTONIO BARBUCCI (President)
MARCO PANIZZA (President)
The exam includes a written test and an oral exam
The exam includes a written test and an oral exam. The written exam consists of performance evaluation or sizing of an electrochemical system. During the oral exam the student will have to answer questions regarding the components of the electrochemical cells, the electrode kinetics and transport phenomena and industrial applications of batteries, fuel cells or electrolysis cells. Reports on experiences carried out in the laboratory will be evaluated and discussed during the oral exams.
