|
|
|
||
Last update: prof. doc. RNDr. Milan Matolín, DrSc. (20.04.2022)
|
|
||
Last update: prof. doc. RNDr. Milan Matolín, DrSc. (20.04.2022)
Mareš S. a kol. (1990): Úvod do užité geofyziky. SNTL, Praha. Cinelli, G., De Cort, M., Tellefsen, T. (2019): Eoropean Atlas of Natural Radiation. Publ. Office of EU Union, Luxembourg. |
|
||
Last update: prof. doc. RNDr. Milan Matolín, DrSc. (02.11.2011)
Examination written and oral. Written examination: a) 25 short questions for 40 minutes, 3 questions for calculation for 40 minutes. Required minimum result: 50points out of 100 points. Skill in control of radiometric instruments. Oral examination: 2 questions (preparation and answers) |
|
||
Last update: RNDr. Josef Datel, Ph.D. (01.06.2009)
1. Airborne gamma survey 1.1 Fundamentals of airborne gamma-ray spectrometry (geological radiation sources, detected radionuclides and their gamma-ray energy lines, gamma radiation field above ground sources, relief and geometry of airborne measurements) 1.2 Airborne gamma-ray spectrometers and their calibration (detectors and instruments, radar altimeter, GPS, background determination, atmospheric radon determination, calibration facility and stripping ratios, gamma air attenuation coefficients, calibration strips and sensitivities of the instrument for radioelement determination) 1.4 Field airborne operation and data processing (flight systems, height and speed of airborne measurements, instrument control and data acquisition, statistical data smoothing, dead time correction, background correction, stripping correction, height correction, conversion of count rates to radioelement concentrations, data levelling) 1.5 Airborne gamma-ray spectrometry maps 2. Car-borne gamma survey 2.1 Application of car-borne gamma survey and theoretical background 2.2 Car-borne gamma-ray spectrometers, their installation and calibration 2.3 Field car-borne gamma-ray survey 2.4 Data processing and car-borne gamma-ray spectrometry maps 3. Radionuclide methods in assessment of uranium resources 3.1 Gamma logging 3.2 Radiometric assaying at outcrops and in mines 3.3 Methods of ?direct U determination" in bore holes (XRF, PFN, DFN, Ge-GS) 4. Radiometric methods in uranium mining and U ore processing 4.1 Radiometric measurements in U mines 4.2 Radiometric U ore sorting 5. Radiometric methods in exploration for nonradioactive minerals 5.1 Association of K, U and Th with nonradioactive elements 5.2 Field measurements and applications 6. Radionuclide methods in control and processing of raw materials 6.1 Methods of back-scattered beta and gamma radiation, gamma attenuation methods, gamma-ray spectrometry, neutron methods, X-ray fluorescence 6.2 Coal, sulphur, ash content, water saturation, density, mineral content, 7. Radiometric maps and reliability of data 8. Method of radiometric data back-calibration 9. Development in radionuclide methods and instruments |