COURSE 1-1 Basic Concepts of Nuclear Engineering
Lecture 1. Atom and Nucleus
- Structure of atom and nucleus
- Atomic and mass numbers
- Stable and unstable nuclides
- Isotope, Isobar, Isotone and Isomer
- Atomic mass unit and mole concept
Lecture 2. Radiation Characteristics
- Electromagnetic waves(photons)
- Ionization, Excitation and Transition
- Nuclide transmutation
- Nuclide radioactive decay
- Nuclide radioactive decay modes
Lecture 3. Fission Process
- Fissile, fissionable and fertile nuclides
- Nuclear fission process
- Nuclear fission energy
Lecture 4. Fission Products and Decay Energy
- Prompt and delayed neutrons
- Fission yields of fission fragments
- Decay heat generated by fission products
Lecture 5. Nuclear Reactions
- Definition of nuclear reactions
- Compound nuclear reaction model
- Neutron-induced nuclear reactions
- Mass-energy balance in nuclear reactions
Lecture 6. Nuclear Cross-sections and Neutron Flux
- Definition of micro and macro cross-section
- Definition of neutron flux
- Nuclear reaction rate
Lecture 7. Neutron Diffusion Equation
- Definition of neutron current(J)
- Neutron balance equation
- Neutron continuity equation
- Neutron diffusion equation
- Neutron multiplication factor
Lecture 8. Neutron Moderation
- Definition of Fermi age, diffusion area and migration area
- Neutron moderation
- Neutron logarithmic energy decrement
- Criteria for selecting good moderators
Lecture 9. Neutron Life Cycle and Critical Equation
- Four and six multiplication factors
- Critical equation and neutron life cycle
- Geometrical and material bucklings
Lecture 10. Reactivity
- Relationship between multiplication factor and reactivity
- Reactivity coefficients: fuel, moderator, power, pressure
- Doppler broadening effect on fuel reactivity
Lecture 11. Reactor Period
- Generation times of prompt and delayed neutrons
- Reactor period with prompt neutrons only
- Reactor period with prompt neutrons and delayed neutrons
Lecture 12. Reactivity Control
- Decay equations for Xe-135 and Sm-149
- Concentration of Xe-135 and Sm-149 during power change
- Chemical shim and reactor operation strategy
COURSE 1-1 is divided into Twelve(12) lectures
Course 1-1 Basic Concepts of Nuclear Engineering
Available in
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days
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- Lecture 1. Atom and Nucleus (29:40)
- Lecture 2. Radiation Characteristics (49:46)
- Lecture 3. Fission Process (23:07)
- Lecture 4. Fission Products and Decay Energy (40:46)
- Lecture 5. Nuclear Reactions (22:59)
- Lecture 6. Nuclear Cross-sections and Neutron Flux (38:21)
- Lecture 7. Neutron Diffusion Equation (29:38)
- Lecture 8. Neutron Moderation (35:51)
- Lecture 9. Neutron Life Cycle and Critical Equation (43:56)
- Lecture 10. Reactivity (30:35)
- Lecture 11. Reactor Period (30:32)
- Lecture 12. Reactivity Control (62:22)
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