Advanced Concepts in Nuclear Reactor Design
( 30 Modules )

Module #1
Introduction to Advanced Nuclear Reactor Design
Overview of the course, history of nuclear reactor development, and importance of advanced reactor design

Module #2
Nuclear Reactor Fundamentals Review
Review of basic principles of nuclear reactors, neutron transport, and reactor kinetics

Module #3
Advanced Reactor Coolant Systems
In-depth analysis of coolant systems, including gas, liquid metal, and molten salt coolants

Module #4
Fuel Cycle and Reactor Design Optimization
Optimization of fuel cycles, reactor design, and operation for advanced reactors

Module #5
Small Modular Reactors (SMRs) and Integral Pressurized Water Reactors (iPWRs)
Design principles, benefits, and challenges of SMRs and iPWRs

Module #6
Generation IV Reactors:Concepts and Designs
Overview of Generation IV reactor designs, including VHTR, SFR, LFR, and GFR

Module #7
Advanced Reactor Safety and Risk Analysis
In-depth analysis of safety principles, risk assessment, and probabilistic safety analysis

Module #8
Passive Safety Systems and Decay Heat Removal
Design principles and application of passive safety systems and decay heat removal systems

Module #9
Computer-Aided Design and Simulation Tools for Nuclear Reactor Design
Overview of computer-aided design and simulation tools for reactor design, including computational fluid dynamics and neutron transport codes

Module #10
Advanced Materials for Nuclear Reactor Applications
Overview of advanced materials for nuclear reactor applications, including cladding, fuel, and structural materials

Module #11
Nuclear Fuel Cycle Strategies and Waste Management
In-depth analysis of nuclear fuel cycle strategies and waste management options

Module #12
Reactor Core Design and Simulation
In-depth analysis of reactor core design principles, simulation tools, and methods

Module #13
Thermal-Hydraulics and Heat Transfer in Nuclear Reactors
In-depth analysis of thermal-hydraulics and heat transfer in nuclear reactors, including single-phase and two-phase flow

Module #14
Neutron Transport and Radiation Protection
In-depth analysis of neutron transport, radiation protection, and shielding design principles

Module #15
Advanced Reactor Control and Instrumentation
In-depth analysis of reactor control and instrumentation systems, including digital control systems and sensor technologies

Module #16
Nuclear Reactor Licensing and Regulatory Frameworks
Overview of nuclear reactor licensing and regulatory frameworks, including national and international standards

Module #17
Economic and Environmental Analysis of Advanced Nuclear Reactors
In-depth analysis of economic and environmental aspects of advanced nuclear reactors, including cost-benefit analysis and life cycle assessment

Module #18
Advanced Reactor Concepts:Brett, Lead-Cooled, and other Innovative Designs
Overview of advanced reactor concepts, including Brett, lead-cooled, and other innovative designs

Module #19
Small Modular Reactor (SMR) and Advanced Pressurized Water Reactor (APWR) Designs
In-depth analysis of SMR and APWR designs, including Westinghouse, Areva, and other vendors

Module #20
Advanced Reactor Simulation and Modeling Techniques
In-depth analysis of advanced reactor simulation and modeling techniques, including Monte Carlo and finite element methods

Module #21
Nuclear Reactor Severe Accident Analysis and Simulation
In-depth analysis of severe accident analysis and simulation, including containment response and melt progression

Module #22
Advanced Reactor Design for Non-Electric Applications
Overview of advanced reactor designs for non-electric applications, including process heat, hydrogen production, and desalination

Module #23
Advanced Reactor Design for Specialized Applications
Overview of advanced reactor designs for specialized applications, including space power, marine propulsion, and research reactors

Module #24
Nuclear Reactor Design for Deep Burn and Actinide Transmutation
In-depth analysis of nuclear reactor design for deep burn and actinide transmutation

Module #25
Advanced Reactor Design for Fusion-Fission Hybrids
Overview of advanced reactor designs for fusion-fission hybrids

Module #26
Nuclear Reactor Design for Mars Exploration and Colonization
Overview of nuclear reactor design for Mars exploration and colonization

Module #27
Advanced Reactor Design for Underwater and Submarine Applications
Overview of advanced reactor designs for underwater and submarine applications

Module #28
Nuclear Reactor Design for High-Temperature Process Heat Applications
In-depth analysis of nuclear reactor design for high-temperature process heat applications

Module #29
Advanced Reactor Design for Hydrogen Production and Carbon Capture
Overview of advanced reactor designs for hydrogen production and carbon capture

Module #30
Course Wrap-Up & Conclusion
Planning next steps in Advanced Concepts in Nuclear Reactor Design career

WIZAPE

ONLINE RESOURCES

ABOUT WIZAPE

ONLINE PORTAL

Our priority is to cultivate a vibrant community before considering the release of a token. By focusing on engagement and support, we can create a solid foundation for sustainable growth. Let’s build this together!

We're giving our website a fresh new look and feel! 🎉 Stay tuned as we work behind the scenes to enhance your experience.
Get ready for a revamped site that’s sleeker, and packed with new features. Thank you for your patience. Great things are coming!

CONTACT-US PRIVACY POLICY

Advanced Concepts in Nuclear Reactor Design ( 30 Modules )

Advanced Concepts in Nuclear Reactor Design
( 30 Modules )