Załącznik Nr 5 do Zarz. Nr 33/11/12

(faculty stamp)COURSE DESCRIPTION

1. Course title: Mining geology / 2. Course code:SI–GIiG/36
3. Validity of course description:2014/2015
4. Level of studies:1st cycle of higher education
5.Mode of studies: intramural studies
6. Field of study:Mining and Geology / (RG6)
7. Profile of studies: general academic
8.Programme:Engineering Geology and Geotechnics
9. Semester:7
10. Faculty teaching the course:Institute of Applied Geology
11. Course instructor:Marek Marcisz PhD, DSc., Eng., Assoc. Prof.
12. Course classification:speciality course
13. Course status: compulsory
14. Language of instruction:Polish and English
15. Pre-requisite qualifications:General mining, General geology, Engineeringhydrogeology, Geochemistry, mineralogy and petrography, Geodesy and GIS, Law of environment protection
16. Course objectives:Theaim of the course is to acquaints students with methods, devices, materials etc., which he uses in dependence to kind and geological-mining conditions of a deposit.
17. Description of learning outcomes:
Nr / Learning outcomes description / Method of assessment / Teaching methods / Learning outcomes reference code
1. / Student is well-informed in the present state and development trends in the chosen speciality from the field of mining and geology / colloquium / lecture / K_W10 +++
2. / Student has got a detailed knowledge in the methods of recognizing and documenting the geological structure, exploration of the deposits, estimation of resources and mineral quality / colloquium,the opinion about the project / lecture, project / K_W19 +++
3. / Student manages to formulate and solve simple engineering tasks with analytic methods and computer simulations apply / colloquium, the opinion about the project / project / K_U10 +++
4. / Student is able to interpret the geological setting on the basis of maps and geological sections / the opinion about the project / project / K_U11 +++
5. / Student has got consciousness of validity and understanding of non-technical aspects and the effects of the engineering activity, influence on the environment, and connected with this responsibility for undertaken decisions / colloquium / lecture / K_K02 +++
6. / Student correct identifies and decides dilemmas connected with the executed profession / colloquium / lecture / K_K05 +++
18. Teaching modes and hours
Lecture / BA / MA Seminar / Class / Project / Laboratory
Sem.7- 30 h.
19. Syllabus description:
Semester 6:
Lecture:
Tasks of mining geology. Geostatistics methods in documentation of deposits. A deposit in the mathematical formulation. Variability of a deposit. Deposits recognition. Mining maps. Geological and geophysical logging of drill-holes. Underground drilling works. Interpretation and documentation of drillings. Methods of geological charting of headings, slopes and dumps of underground mines and open-pits. Influence of a deposit structure on mining works. Recognition and documentation of geological–engineering conditions of mining. Recognition of natural hazards in coal mines. Assessment of rock slide hazard. Composition of maps, sections and the models of deposits. Methods of correlating and identification of layers and veins. Sampling of drill-holes, headings and output. Planning of sampling. Legal and economic conditions of protection and utilization of deposit resources. Estimation and classification of resources. Accuracy of resources estimation. Geological service of dumps and ponds.
Class:
-
Laboratory:
-
Project:
Construction of contour maps of shear strength Rc [MPa]. Determination of roof class, according to generally accepted classifications of roofs. Propose of kind of lining.
Seminar:
-
20. Examination: semester 7
21. Primary sources:
Nieć M., Geologia kopalniana. Wyd. Geologiczne, Warszawa, 1982 (in Polish).
Duźniak S., Gabzdyl W., Geologiczno-górnicze rozpoznawanie złóż w kopalniach węgla kamiennego. Wyd. Politechniki Śląskiej, Gliwice, 1991 (in Polish).
Mucha J., Metody geostatystyczne w dokumentowaniu złóż. Wyd. Akademii Górniczo-Hutniczej, Kraków, 1994 (in Polish).
Kowalik S., ed., Komputerowe projektowanie inżynierskie w zastosowaniach górniczych. Wyd. Politechniki Śląskiej, Gliwice, 2008(in Polish).
Kidybiński A., Podstawy geotechniki kopalnianej. Wyd. Śląsk, Katowice, 1982 (in Polish).
22. Secondary sources:
Krawczyk A., Słomka T., Podstawowe metody modelowania w geologii. Materiały pomocnicze do ćwiczeń. Wyd. Akademii Górniczo-Hutniczej, Kraków, 1982 (in Polish).
Kokesz Z., Nieć M., Metody geostatystyczne w rozpoznawaniu i dokumentowaniu złóż oraz w ochronie środowiska. Studia i Rozprawy nr 19, Wyd. CPPGSMiE PAN, Kraków, 1992 (in Polish).
Darski J., Kicki J., Sobczyk E. J., Raport o stanie gospodarki zasobami złóż węgla kamiennego. Studia, Rozprawy, Monografie nr 85, Wyd. IGSMiE PAN, Kraków, 2001 (in Polish).
Pytel J., Sowa A., Geneza zdarzeń geomechanicznych w górnictwie węgla kamiennego. Miesięcznik WUG, nr 4, Katowice, 2001 (in Polish).
23. Totalworkload requiredto achieve learning outcomes
Lp. / Teaching mode: / Contact hours / Student workload hours
1 / Lecture / 15/60
2 / Classes / 0/0
3 / Laboratory / 0/0
4 / Project / 15/60
5 / BA/ MA Seminar / 0/0
6 / Other / 0/0
Total number of hours / 30/120
24. Total hours:150
25. Number of ECTS credits:5
26. Number of ECTS credits allocated for contact hours:1
27. Number of ECTS creditsallocated for in-practice hours (laboratory classes, projects):2
26. Comments: -

Approved:

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(date,Instructor’s signature)(date ,the Director of theFaculty Unitsignature)

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