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Lecture
Physics of Nuclear Reactors: Fundamentals and Advanced Concepts
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Related lectures (32)
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Nuclear Reactions: Basics and Applications
Explores nuclear reactions, radioactivity, energy release, and decay heat removal in reactors.
Gas Reactor: Transmutation with Fast Neutrons and High-Temperature Concepts
Explores transmutation in fast reactors, subcritical reactors, and high-temperature gas-cooled concepts.
Interaction of Neutrons with Matter: Nuclear Fission
Covers Doppler effects, anisotropic scattering corrections, and nuclear fission in reactors.
Physics of Nuclear Reactors: Gas-Cooled Reactors
Explores gas-cooled nuclear reactors, covering basic principles, reactor concepts, fuel types, and advanced technologies.
Introduction to Nuclear Engineering
Covers the basics of nuclear physics, benefits of nuclear energy, reactor classification, fission reactions, and decay heat removal.
Neutron Physics: Reactor Fundamentals
Explores neutron physics in nuclear reactors, covering criticality, fuel cycles, reactor characteristics, and slowing down processes.
Neutron Physics: Reactor Behavior
Covers neutron physics in nuclear reactors, including criticality, fission, and neutron distribution.
Neutron Kinetics: Reactivity and Reactor Dynamics
Explores reactivity equations, stable reactor periods, and the impact of reactivity variations on reactor safety.
Reactor Technology: Reactivity Variations
Explores reactivity variations in reactor technology, covering short-term, medium-term, and long-term changes, as well as means of control and important coefficients.
Multiplying media: Analytical Solutions and Non-leakage Probability
Covers media containing fuel, analytical solutions, and non-leakage probability for thermal and fast neutrons.
