Дисциплина

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Integrated use of raw materials and metallurgical wastes

Reutova Galina Alexandrovna

Description: Review and analysis of the problems and achievements of traditional technologies and innovations in the field of integrated use of raw materials and waste of metallurgical production.

Amount of credits: 5

Пререквизиты:

Chemistry

Course Workload:

Types of classes	hours
Lectures	15
Practical works	30
Laboratory works
SAWTG (Student Autonomous Work under Teacher Guidance)	30
SAW (Student autonomous work)	75
Form of final control	Exam
Final assessment method	oral examination

Component: Component by selection

Cycle: Base disciplines

Goal

Know and understand competitive innovative metallurgical technologies for the complex processing of metallurgical raw materials with the use of their review and analysis in the dissertation work.

Objective

Apply the information received about the problems and achievements of traditional and promising technologies in the dissertation work

Learning outcome: knowledge and understanding

Knowledge and understanding of competitive innovative metallurgical technologies for the complex processing of metallurgical raw materials with the use of their review and analysis in the dissertation work.

Learning outcome: formation of judgments

Formation of your own analysis and judgment to the conclusions of the received scientific information

Learning outcome: communicative abilities

Ability to work in a team while achieving scientific results

Learning outcome: learning skills or learning abilities

Self-study ability in addition to traditional

Teaching methods

Training (lectures, seminars, self-control) as interactive teaching methods.

Assessment of the student's knowledge

Teacher oversees various tasks related to ongoing assessment and determines students' current performance twice during each academic period. Ratings 1 and 2 are formulated based on the outcomes of this ongoing assessment. The student's learning achievements are assessed using a 100-point scale, and the final grades P1 and P2 are calculated as the average of their ongoing performance evaluations. The teacher evaluates the student's work throughout the academic period in alignment with the assignment submission schedule for the discipline. The assessment system may incorporate a mix of written and oral, group and individual formats.

Period	Type of task	Total
1 rating	Task 1 Promising complex hydrotechnologies; metallurgical calculation.	0-100
	2 Overview of current and prospective hydrometallurgical technologies for the processing of raw materials ChCM with an appendix to the topic of the dissertation;
	Test PK1
2 rating	Task 3 Promising complex pyrotechnologies; metallurgical calculation.	0-100
	Task 4 Review and analysis of complex technologies of pyrometallurgy. Abstract 2
	Test PK2
Total control	Exam	0-100

The evaluating policy of learning outcomes by work type

Type of task	90-100	70-89	50-69	0-49
Type of task	Excellent	Good	Satisfactory	Unsatisfactory
Assessment of knowledge of problems and achievements of traditional technologies and innovations in the field of integrated use of raw materials and waste from metallurgical production.	The theoretical content of the course was mastered completely without errors with the maximum number of points	The theoretical content of the course has been fully mastered, without gaps, some practical skills in working with the mastered material have not been sufficiently developed, all the educational tasks provided for in the training program have been completed, the quality of none of them has been assessed with a minimum number of points, some types of tasks have been completed with errors	The theoretical content of the course has been partially mastered, but the gaps are not significant, the necessary practical skills in working with the material mastered have been basically formed, most of the educational tasks provided for in the training program have been completed, some of the completed tasks may contain errors	The theoretical content of the course was mastered completely without errors with the maximum number of points

Evaluation form

The student's final grade in the course is calculated on a 100 point grading scale, it includes:

40% of the examination result;
60% of current control result.

The final grade is calculated by the formula:

FG = 0,6	MT₁+MT₂	+0,4E
	2

Where Midterm 1, Midterm 2are digital equivalents of the grades of Midterm 1 and 2;

E is a digital equivalent of the exam grade.

Final alphabetical grade and its equivalent in points:

The letter grading system for students' academic achievements, corresponding to the numerical equivalent on a four-point scale:

Alphabetical grade	Numerical value	Points (%)	Traditional grade
A	4.0	95-100	Excellent
A-	3.67	90-94	Excellent
B+	3.33	85-89	Good
B	3.0	80-84
B-	2.67	75-79
C+	2.33	70-74
C	2.0	65-69	Satisfactory
C-	1.67	60-64
D+	1.33	55-59
D	1.0	50-54
FX	0.5	25-49	Unsatisfactory
F	0	0-24	Unsatisfactory

Topics of lectures

autumn 2020-2021 academic year Fundamentals of the integrated use of raw materials for non-ferrous metallurgy Topic 1 Formation and development of resource-saving technologies for metallurgical production
Topic 2 Problems and prospects for the complex use of metallurgical raw materials
Topic 3 Combined dressing and metallurgical scheme for processing refractory ores
Topic 4 Recycling of technogenic formations and the introduction of resource-saving technologies - a means of replenishing raw materials and obtaining additional products
Topic 5 Recycling of semi-finished products and waste from the production of heavy non-ferrous metals
Topic 6 Review of modern methods of processing secondary raw materials
Topic 7 Comparative analysis of hardware options for pyrometallurgical processing of rich natural and man-made gold-containing products

Key reading

1 Osnovy kompleksnogo ispol'zovaniya syr'ya cvetnoj metallurgii (teoriya, tekhnologiya i osvoenie novyh metallurgicheskih processov) // A.M.Kunaev, S.M. Kozhahmetov, A.V. Vanyukov, I.R. Polyvyannyj,, A.I. Zarubin, E.S. Esyutin //- Alma-Ata: Nauka, 1982. – 392s. 2 Novye puti vzaimodejstviya vysshej shkoly i metallurgicheskoj promyshlennosti v XXI veke. / N.R. Kel'chevskaya, M.I. Srogovich. //Izvestiya vuzov. Cvetnaya metallurgiya, № 6, 2003. –S. 81-87. 3Pererabotka tekhnogennyh mineral'nyh obrazovanij i vnedrenie resursosberegayushchih tekhnologij – sredstva vypolneniya syr'evyh resursov i polucheniya dopolnitel'noj produkcii. / A.I. Bayanderov. // Sbornik nauchnyh trudov VNIIcvetmeta. –Ust'-Kamenogorsk, 2006. –S. 6–9. 4 Nabojchenko S.S. Processy i apparaty cvetnoj metallurgii. Principy sozdaniya novyh metallurgicheskih tekhnologij i ih vnedrenie. - Ekaterinburg: GOU VPO UGTU-UPI, 2005.- 700s. 5 Osnovy kompleksnogo ispol'zovaniya syr'ya cvetnoj metallurgii (teoriya, tekhnologiya i osvoenie novyh metallurgicheskih processov) // A.M.Kunaev, S.M. Kozhahmetov, A.V. Vanyukov, I.R. Polyvyannyj,, A.I. Zarubin, E.S. Esyutin //- Alma-Ata: Nauka, 1982. – 392s. 6 Razrabotka racional'noj tekhnologii pererabotki otvalov shlakov medeplavil'nyh zavodov. /V.A. SHumskij, I.P. Polyakov, B.A. Ragulin.// Sbornik nauchnyh trudov VNIIcvetmeta. –Ust'-Kamenogorsk, 2006. –S. 68-71 7 Perspektivy kivcetnoj tekhnologii v oblasti pererabotki kompleksnogo svincovo-medno-cinkovogo syr'ya i syr'ya blagorodnyh metallov. // Trudy VNIIcvetmeta. –Ust'-Kamenogorsk, 2004. № 1-2. –S. 42-45. 8 A.YU. SHustrov, V.P. Denisov. Kompleksnaya tekhnologiya proizvodstva svinca i sur'my.- Cvetnye metally, 2004, № 10 S.37-40. 9 Tekhnologii VNIICVETMETA dlya pererabotki zolotosoderzhashchih rud razlichnyh tipov./N.V. Sulakvelidze, R.A. Arabaev// -Trudy VNIIcvetmeta. –Ust'-Kamenogorsk, 2014. –S. 46-51. 10 Tekhnologicheskaya skhema dlya promyshlennogo izvlecheniya zolota iz upornogo syr'ya bez primeniya cianidov /A.O. Teut, D.V. Kuimov, S.V. Mezenceva// Trudy VNIIcvetmeta. –Ust'-Kamenogorsk, 2014. –S. 56-60. 11 Issledovaniya VNIICVETMETA v oblasti gidrometallurgicheskih i kombinirovannyh processov prerabotki razlichnogo mineral'nogo syr'ya /L.B. Kushakova, N.V. Sizikova, O.YU. Brailko // -Trudy VNIIcvetmeta. –Ust'-Kamenogorsk, 2014. –S. 73 – 77. 12Kombinirovannaya obogatitel'no-metallurgicheskaya skhema pererabotki trudnoobogatimyh rud /S.G. Strunikov, O.A. Han, N.A. Kulenova, A.A. Kaliakperov//.-Materialy IV Mezhdunarodnoj konferencii « Innovacionnye razrabotki v oblasti dobychi i proizvodstva cvetnyh i blagorodnyh metallov», T., VNIICVETMET, 2007, S.32-36. 13 Metallurgiya blagorodnyh metallov: Uchebnik v 2-h knigah. Kn.1,2 /YU.A. Kotlyar, M.A. Meretukov, L.S. Strizhko//- M.: MISIS, Izdatel'skij dom»Ruda i metally», 2005.-392s. 14 Razrabotka funkcional'nyh kompozicionnyh materialov na osnove othodov metallurgicheskih proizvodstv / A.A. ZHarmenov, S.K. Myrzalieva, E.O. Ajmbetova//.-Materialy IV Mezhdunarodnoj konferencii « Innovacionnye razrabotki v oblasti dobychi i proizvodstva cvetnyh i blagorodnyh metallov», T., VNIICVETMET, 2007, S.158-161. 15 Tekhnologicheskie skhemy utilizacii mysh'yak- i hromsoderzhashchih othodov. /H. Kuzgibekova, E.V. ZHinova, S.M. Isabaev// -Materialy IV Mezhdunarodnoj konferencii « Innovacionnye razrabotki v oblasti dobychi i proizvodstva cvetnyh i blagorodnyh metallov», T., VNIICVETMET, 2007, S.162-168. 16 Utilizaciya ftoridnyh shlakov metallotermicheskogo vostanovleniya redkometal'nogo proizvodstva. /S.G. Strunnikov, O.A. Han//- Materialy IV Mezhdunarodnoj konferencii « Innovacionnye razrabotki v oblasti dobychi i proizvodstva cvetnyh i blagorodnyh metallov», T., VNIICVETMET, 2007, S.172-174. 17 Ispol'zovanie produktov utilizacii ftorsoderzhashchiz gazov berillievogo proizvodstva. /K.D. Polinovskij, K.Z. Guzovskij i dr.//- Materialy IV Mezhdunarodnoj konferencii « Innovacionnye razrabotki v oblasti dobychi i proizvodstva cvetnyh i blagorodnyh metallo

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