Mineral deposits of Poland
General data
Course ID: | 1300-OFZP4C |
Erasmus code / ISCED: |
07.304
|
Course title: | Mineral deposits of Poland |
Name in Polish: | Formacje złożowe Polski |
Organizational unit: | Faculty of Geology |
Course groups: | |
ECTS credit allocation (and other scores): |
(not available)
|
Language: | Polish |
Type of course: | obligatory courses |
Prerequisites (description): | Lectures and laboratories are aimed at students who should have knowledge obtained during the first step of geological studies (eg. geology of mineral deposits, dynamic geology, mineralogy, geochemistry, structural geology petrology, historical and regional geology). Mineral deposits of Poland are the subject, which refers to the knowledge obtained during in the first stage of geological studies. |
Short description: |
Laboratory works scope on the economic viability criteria on the various types of deposits and their practical application in determining the boundaries and in the calculation of resources (specific examples are used). |
Full description: |
Program includes: 1. Introduction (2h); Discussion of the basic concepts used during the classes. 2. The coal deposits (2h); Discussion of the occurrence of coal and conditions of exploitation on the example of the mine Jankowice. 3. Deposits of natural gas (2h); Discussion of natural gas deposits on the basis of Rotliegend basin. 4. Crude oil deposits (2h); The use of the entire range of geological knowledge for the implementation of the petroleum system scheme (Stężyca). 5. Deposits of carbonate raw materials (2h); Analysis of Podgórze deposit. 6. Deposits of natural aggregates (4h); Analysis of sand deposit Wola Kutowa). 7. Hard rock raw materials (2h); Analysis technological properties of the granite and gneiss deposit Mikoszów. 8. Copper deposits (2h); Analysis of the ore properties from the Głogów Deep mine. 9. The clay deposits (2h); Analysis of the technological properties of the clay from the selected deposit. 10.Presentations connected with deposits localized on the area of the thesis students, performed by students (10h). |
Bibliography: |
(in Polish) 1. Kozłowski R. (red.) – Surowce mineralne Polski (cała seria). Wydawnictwa Geologiczne, Warszawa. 2. Kozłowski S. (red.) (1986) – Surowce skalne Polski. Wydawnictwa Geologiczne, Warszawa. 3. Ney R. (red.) – Surowce mineralne Polski (cała seria). Wydawnictwo Instytutu GSMiE PAN, Kraków. 4. Ney R., Smakowski T. (red.) – Bilans gospodarki surowcami mineralnymi Polski i świata. Ministerstwo Ochrony Środowiska, Kraków (rocznik). 5. Osika R. (red.) (1987) – Budowa geologiczna Polski. Złoża surowców mineralnych. Wydawnictwa Geologiczna, Warszawa. 6. Przeniosło S. (red.) (2000) – Mineral Resources of Poland. PIG, Warszawa. 7. Sokołowski J. (1990) – Geologia regionalna i złożowa Polski. Wydawnictwa Geologiczne, Warszawa. |
Learning outcomes: |
After completion of laboratories student can do the analysis with respect to viability criteria, can determine the valuability of raw materials in the industry and can describe on the basic level the impact of mining on the environment. Student also knows the methodology of petroleum systems analysis. |
Assessment methods and assessment criteria: |
Laboratories ends with a final test in the form of a written response to questions. To pass student must achieve at least 51% of the maximum number of points. To have possibility to write the test only 2 absences are allowed. Up to ½ of final grade is engagement of the student during the classes. Students presentations are evaluated separately, very good achieved during the speech raises the final grade of ½. |
Practical placement: |
(in Polish) brak |
Copyright by University of Warsaw.