B23521 - Elektrohemijsko inzenjerstvo
| Course specification | ||||
|---|---|---|---|---|
| Type of study | Bachelor academic studies | |||
| Study programme | ||||
| Course title | ||||
| Acronym | Status | Semester | Number of classes | ECTS |
| B23521 | mandatory | 5 | 3L + 1E | 7.0 |
| Lecturers | ||||
| Lecturer | ||||
| Lecturer/Associate (practicals) | ||||
| Prerequisite | Form of prerequisites | |||
| none | --- | |||
| Learning objectives | ||||
| To teach students the theoretical basics of electrochemical engineering, and to enable them to calculate the electrochemical parameters of technological processes in electrochemical production. Introduce them to the basic measurements of physico-chemical and technological parameters in electrochemical production processes. Studing and understanding the most important electrochemical production technologies with special emphasis on the application of modern electrochemical technologies respecting economic and environmental requirements. | ||||
| Learning outcomes | ||||
| The student is able to apply knowledge of the energetic of electrochemical reactor, the phenomenon of mass transfer and the distribution of current density to different types of electrochemical reactors in different industrial fields. Independently performing experimental research of technical and technological parameters of the electrochemical reactor and perform their optimization. Apply knowledge from new growing electrochemical technologies to a variety of applications in the process industry. | ||||
| Content | ||||
| Basic concepts and quantities of electrochemical engineering; Energetics of electrochem. reactor; Mass transfer in the electrochem. reactor; Distribution of current density and potential at the electrode; Technical-technological aspects of electrochem. production; Metals production by refining metals by electrolysis; Metals production by electrolysis of aqueous solutions; Metals production by electrolysis of melts; technologies for the production of inorganic and organic substances; Electroplating; Electrochem. energy sources; Other electrochem. technologies; Development and application of new electrochem. technology. | ||||
| Teaching Methods | ||||
| Lectures, calculation exercises, laboratory exercises, field exercises, seminar papers, consultations. | ||||
| Evaluation and grading | ||||
| Written and oral exam, oral presentation of seminar paper. Attendance 5 Seminar paper 10 Final exam 25 Exercises (laboratory) 20 ests (2) 40 Total 100 | ||||