1. Physical fundamentals of nuclear energy, radioactive decay, neutron nuclear reactions, balance neutrons in a nuclear reactor.
2. Physical calculation of nuclear reactor neutron diffusion, the critical equation of nuclear reactor neutron flux. Kinetics of fission chain reaction.
3. Operating and transients.
4. The development and heat in a nuclear reactor, the distribution of heat flow, process temperature field in the fuel element and the core.
5. Operation and control of the nuclear reactor compensation reactivity reactor poisoning, iodine pit, fluxing reactor.
6. Dynamics in the supercritical state, compensation devices and power control.
7. Compensation of coolant in the primary circuit, bubbler tank and insurance systems.
8. Transition and operational processes in the first circuit. Thermal and hydraulic design of nuclear reactors I. circuit MIR 1200, AP 1000 EPR.
9. Operation of nuclear power plants.
10. Thermal diagrams of nuclear power plants, thermal efficiency and ways of its improvement.
11. Nuclear energy cycle, fuel and fuel cell manufacturing, storage and disposal of nuclear waste. Incineration of radioactive waste. Radioactive management.
12. Materials reactor cores. Physico-technical aspects of nuclear reactor safety, nuclear security.
13. Passive and active safety systems. Classification of nuclear accidents.
14. Reactors with high inherent passive safety, and III + generation. Perspective types of nuclear power plants IV. generation.
2. Physical calculation of nuclear reactor neutron diffusion, the critical equation of nuclear reactor neutron flux. Kinetics of fission chain reaction.
3. Operating and transients.
4. The development and heat in a nuclear reactor, the distribution of heat flow, process temperature field in the fuel element and the core.
5. Operation and control of the nuclear reactor compensation reactivity reactor poisoning, iodine pit, fluxing reactor.
6. Dynamics in the supercritical state, compensation devices and power control.
7. Compensation of coolant in the primary circuit, bubbler tank and insurance systems.
8. Transition and operational processes in the first circuit. Thermal and hydraulic design of nuclear reactors I. circuit MIR 1200, AP 1000 EPR.
9. Operation of nuclear power plants.
10. Thermal diagrams of nuclear power plants, thermal efficiency and ways of its improvement.
11. Nuclear energy cycle, fuel and fuel cell manufacturing, storage and disposal of nuclear waste. Incineration of radioactive waste. Radioactive management.
12. Materials reactor cores. Physico-technical aspects of nuclear reactor safety, nuclear security.
13. Passive and active safety systems. Classification of nuclear accidents.
14. Reactors with high inherent passive safety, and III + generation. Perspective types of nuclear power plants IV. generation.