Difference between revisions of "CINCH Radiochemistry Course"

From mn/safe/nukwik
Jump to: navigation, search
Line 1: Line 1:
Theoretical part of the course<br>(total 60 hours of self-study)<br>Topic 1: Fundamentals of nuclear chemistry 1 (12 h)<br>• Structure and properties of atomic nuclei. <br>• Classification of radionuclides. <br>• Kinetics of radioactive decay. Radioactive equilibria. <br>• Binuclear reactions. Yield of nuclear reactions.<br>Topic 2: Fundamentals of nuclear chemistry 2 (12 h)<br>• Natural radioactivity. Radioactive decay chains.<br>• Nuclear fission, fission products. <br>• Hot atoms chemistry. Szilard-Chalmers system.<br>• Radiation chemistry.<br>• Actinides and transactinides.<br>Topic 3: Radiation detection and dosimetry, radiation protection (12 h)<br>• Interaction of IR with matter (alpha, gamma, beta, neutrons).<br>• Detection of ionizing radiation (detector types, principles). <br>• Dosimetry of ionizing radiation. Radiation protection.<br>Topic 4: Separation methods in radiochemistry (12 h)<br>• Differences from classical separation methods and their reasons.<br>• Extraction methods (L-L, principles, instrumentation).<br>• Chromatography (principles, instrumentation).<br>• Enrichment and separation of selected isotopes.<br>Topic 5: Radioanalytical methods (12 h)<br>• Indicator methods. Isotope dilution analysis.<br>• Radio-reagent methods. Interaction methods.<br>• Determination of selected radionuclides.
+
=== Theoretical part of the course
 +
(total 60 hours of self-study)<br>Topic 1: Fundamentals of nuclear chemistry 1 (12 h)<br>• Structure and properties of atomic nuclei. <br>• Classification of radionuclides. <br>• Kinetics of radioactive decay. Radioactive equilibria. <br>• Binuclear reactions. Yield of nuclear reactions.<br>Topic 2: Fundamentals of nuclear chemistry 2 (12 h)<br>• Natural radioactivity. Radioactive decay chains.<br>• Nuclear fission, fission products. <br>• Hot atoms chemistry. Szilard-Chalmers system.<br>• Radiation chemistry.<br>• Actinides and transactinides.<br>Topic 3: Radiation detection and dosimetry, radiation protection (12 h)<br>• Interaction of IR with matter (alpha, gamma, beta, neutrons).<br>• Detection of ionizing radiation (detector types, principles). <br>• Dosimetry of ionizing radiation. Radiation protection.<br>Topic 4: Separation methods in radiochemistry (12 h)<br>• Differences from classical separation methods and their reasons.<br>• Extraction methods (L-L, principles, instrumentation).<br>• Chromatography (principles, instrumentation).<br>• Enrichment and separation of selected isotopes.<br>Topic 5: Radioanalytical methods (12 h)<br>• Indicator methods. Isotope dilution analysis.<br>• Radio-reagent methods. Interaction methods.<br>• Determination of selected radionuclides.

Revision as of 19:49, 21 May 2012

=== Theoretical part of the course (total 60 hours of self-study)
Topic 1: Fundamentals of nuclear chemistry 1 (12 h)
• Structure and properties of atomic nuclei.
• Classification of radionuclides.
• Kinetics of radioactive decay. Radioactive equilibria.
• Binuclear reactions. Yield of nuclear reactions.
Topic 2: Fundamentals of nuclear chemistry 2 (12 h)
• Natural radioactivity. Radioactive decay chains.
• Nuclear fission, fission products.
• Hot atoms chemistry. Szilard-Chalmers system.
• Radiation chemistry.
• Actinides and transactinides.
Topic 3: Radiation detection and dosimetry, radiation protection (12 h)
• Interaction of IR with matter (alpha, gamma, beta, neutrons).
• Detection of ionizing radiation (detector types, principles).
• Dosimetry of ionizing radiation. Radiation protection.
Topic 4: Separation methods in radiochemistry (12 h)
• Differences from classical separation methods and their reasons.
• Extraction methods (L-L, principles, instrumentation).
• Chromatography (principles, instrumentation).
• Enrichment and separation of selected isotopes.
Topic 5: Radioanalytical methods (12 h)
• Indicator methods. Isotope dilution analysis.
• Radio-reagent methods. Interaction methods.
• Determination of selected radionuclides.