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Theoretical Principles of Magnetic and Electric Concentrations

Study program:
Mining Engineering (IV semester -PhD)
Name of subject: Theoretical Principles of Magnetic and Electric Concentrations
Instructors:
Prof. Milena Kostović
Status: Optional
ECTS: 10
Prerequisites: -
Course Objectives:
Training students for independent scientific research in the field of magnetic and electric concentration or continuing advanced professional study in this area.
Learning Outcomes:
The creation of qualified experts who will be able to participate or lead scientific researches in the field of magnetic and electric concentration, to participate or lead strategic research in the aim of complex valorization of mineral and secondary raw materials and to ensure the transfer of scientific achievements in the practice of magnetic and electric concentration.
Content:

Theory teaching
The magnetic moment, magnetic moment of electrons, magnetic moment of electron spin, magnetic domain; ferromagnetic materials, antiferromagnetic materials, ferrimagnetic materials, paramagnetic materials, diamagnetic materials. Magnetic properties of minerals: susceptibility, permeability, magnetization, induction. Dependence of magnetic properties from induction of external magnetic field; hysteresis. Dependence of magnetic mineral properties from particle size; demagnetization, factor of demagnetization. Change of magnetic properties of the minerals in heating. Magnetic field: homogeneous, unhomogeneous, high-gradient. Magnetic forces, magnetic forces of attraction. Zone of separation in magnetic separators: the forces which acts on particle with diferrent magnetic properties in the separation zone. High-gradient and super-conducting magnetic systems. Magnetic flocculation. Conductivity of conductor and semiconductor. Dielectric permeability. Electric field: homogeneous, unhomogeneous, field of corona discharging. Force fields, electric forces of attraction: electrostatic and ponderomotive force. Behavior of conductors and unconductors in electric field. Electrify of particle: by taching, friction, corona, heating. The possibility of increasing the difference in electrophysic characteristics of mineral components. Zone of separation in electric separator: the forces acted on particle of different electrical conductivity in separation zone of electric separator.

Practical teaching
The appropriate scientific and experimental work in the field of magnetic and electric concentration of mineral or secondary raw materials that are the subject of the student investigation within the PhD dissertations.

Suggested Reading List:
  1. Ćalić N.:Teorijski osnovi pripreme mineralnih sirovina, Rudarsko-geološki fakultet, Beograd, 1990. 
  2. Weiss N.L. (Editor):SME Mineral Processing Handbook, Vol. 1, SME of the AIMMPE, New York, 1985.
  3. Svoboda J.:Magnetic metods for the treatment of minerals, Elsevier, 1987. 
  4. Ignjatović R.: Fizičke metode koncentracije mineralnih sirovina, Tehnički fakultet, Bor, 1983.
  5. Ignjatović M. (redaktor): Magnetska separacija - novi trendovi u pripremi mineralnih sirovina, ITNMS, Beograd, 1997.
Conduct of the Course:
Consultative
Fund hours:
Lectures Exercises Other forms of teaching Study research
4 0 0 0
Assessment:
Final Exam ECTS
Oral Exam50

Classwork Assessment ECTS
Seminars50
Additional Assessment Criteria: -


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