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14DMI18 - Higher course of metallurgical processes

Course specification
Course titleHigher course of metallurgical processes
Acronym14DMI18
Study programme
Module
Lecturer (for classes)
Lecturer/Associate (for practice)
    Lecturer/Associate (for OTC)
      ESPB5.0Status
      ConditionnoОблик условљености
      The goalThe main objectives of the course are: to prepare for independent performing of engineering calculations of thermodynamic and kinetic parameters of the reaction in metallurgical processes, independent research and the basic mechanisms of the processes in metallurgy.
      The outcomeStudents are qualified to independently perform engineering calculations of thermodynamic and kinetic parameters of the reaction of metallurgical processes, independent research, the basic mechanisms of the processes in metallurgy, with aim of applications in various technological schemes of metals obtaining, refining and recycling.
      Contents
      Contents of lecturesThrough this course, students master the basics of the thermodynamic and kinetic of pyro-and hydro-metallurgical processes, reaction mechanisms and possibilities of their use in metal extraction and processing of metallic materials. Seminar paper is required. The course introduces to students the basic principles of metallurgical processes applied in the technology of iron and steel, ferro-alloys, non-ferrous and rare metals from primary and secondary raw materials. Students will become familiar with the processes that are carried out at high temperatures, such as calcination processes, oxidation, reduction, combustion, chlorination, sulfidization and agglomeration of ore particles and concentrates. Obtaining of high temperature will be analyzed, the formation structure and properties of melt and oxide systems will be examined.
      Contents of exercises
      Literature
      1. Rosenqvist, T., Principles of extractive metallurgy, 2nd Edition, New York, 1983
      2. Bodswort C., Bell H.B., Physical chemisry of Iron and Steel manufacture, 1995
      3. Davenport W.G., Flash smelting, University of Arizona, Tucson, Pergamon press, 1987
      4. Voljskij A.H., Sergijevsaja, Teorija metallurgičeskih processov, Metalurgija, Moskva, 1988
      5. Coudurier, Hopkins, Wilkomirsky, Fundamentals of Metallurgical Processes, Pergamon, 1998
      6. A.N. Zelikman, G.M. Voldman, L.V. Belyevska, Theory of Hydrometallurgical Process, Metallurgii, Moscow, 1993
      Number of hours per week during the semester/trimester/year
      LecturesExercisesOTCStudy and ResearchOther classes
      2
      Methods of teachingClasses are held in the form of lectures. Students are required to do seminar paper.
      Knowledge score (maximum points 100)
      Pre obligationsPointsFinal examPoints
      Activites during lectures10Test paper60
      Practical lessonsOral examination
      Projects
      Colloquia
      Seminars30