Nuclear Reactor Physics
( 25 Modules )

Module #1
Introduction to Nuclear Reactor Physics
Overview of nuclear reactors, importance, and applications

Module #2
Atomic Physics Basics
Review of atomic structure, nucleus, and nuclear reactions

Module #3
Nuclear Reactions and Cross-Sections
Types of nuclear reactions, reaction rates, and cross-sections

Module #4
Neutron Physics
Neutron properties, neutron scattering, and absorption

Module #5
Reactor Kinetics
Introduction to reactor kinetics, neutron flux, and reactor dynamics

Module #6
Reactor Types
Overview of different reactor types, including PWR, BWR, and GCR

Module #7
Fuel Types and Properties
Introduction to fuel types, fuel cycles, and fuel properties

Module #8
Heat Transfer and Thermal Analysis
Heat transfer mechanisms, heat exchangers, and thermal analysis

Module #9
Reactor Cooling Systems
Cooling system types, heat removal mechanisms, and cooling system design

Module #10
Reactor Control and Operation
Reactor control systems, operation modes, and safety considerations

Module #11
Nuclear Safety Fundamentals
Introduction to nuclear safety, safety principles, and safety culture

Module #12
Reactor Accidents and Emergency Preparedness
Reactor accident scenarios, emergency preparedness, and accident mitigation strategies

Module #13
Radiation Protection and Dosimetry
Radiation protection principles, dosimetry, and radiation detection

Module #14
Nuclear Waste Management
Nuclear waste types, storage, and disposal options

Module #15
Computational Methods in Reactor Physics
Introduction to computational methods, numerical simulations, and code development

Module #16
Deterministic Methods in Reactor Physics
Deterministic methods for reactor analysis, including diffusion and transport theory

Module #17
Monte Carlo Methods in Reactor Physics
Monte Carlo methods for reactor analysis, including particle transport and simulation

Module #18
Reactor Design and Optimization
Reactor design principles, optimization techniques, and design parameters

Module #19
Nuclear Reactor Licensing and Regulation
Introduction to nuclear reactor licensing, regulation, and international standards

Module #20
Economic and Environmental Aspects of Nuclear Power
Economic and environmental impacts of nuclear power, including cost-benefit analysis and sustainability

Module #21
Advanced Reactor Concepts
Introduction to advanced reactor concepts, including Generation IV and small modular reactors

Module #22
Reactor Physics Experiments and Benchmarks
Experimental methods in reactor physics, including benchmarks and validation

Module #23
Uncertainty Analysis and Sensitivity Studies
Uncertainty analysis methods, sensitivity studies, and error propagation

Module #24
Reactor Physics Applications in Medicine and Industry
Applications of reactor physics principles in medicine and industry, including radiation therapy and non-destructive testing

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Nuclear Reactor Physics career

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Nuclear Reactor Physics ( 25 Modules )

Nuclear Reactor Physics
( 25 Modules )