Lectures related to Nuclear Fuel: Energy Conversion and Reactivity

Introduction to Nuclear Engineering

Introduces nuclear engineering, covering reactions, chain reactions, fuel cycle, criticality, and multiplication factors.

Introduction to Nuclear Engineering: Chain Reactions and Fuel Cycles

Explores chain reactions, criticality, reactor types, and fuel cycles in nuclear engineering.

Nuclear Fission: Total Cross Section Analysis

Analyzes the total cross section data for nuclear fission, covering energy dependence, transport, reactions, uncertainties, fission fragments, and radiological hazards.

Nuclear Fission: Energy Release and Neutron Interactions

Explores nuclear fission, energy release, fission neutrons, and practical fuels in a nuclear reactor.

Physics of Nuclear Reactors: Fundamentals and Advanced Concepts

Explores the fundamentals and challenges of nuclear reactors, covering neutron diffusion, fission, breeding, transmutation, and advanced technologies.

Nuclear fission: Energy Release and Fission Fragments

Explores energy release from fission, fuel burnup, and fission fragments yields and decay in a nuclear reactor.

Interaction of Radiation with Matter

Covers the interaction of radiation with matter, including direct and indirectly ionizing radiation and nuclear reactions.

Introduction to Nuclear Engineering

Introduces nuclear engineering concepts, covering reactor technology, physics, safety measures, fission reactions, and reactor safety.

Interactions of Neutrons with Matter

Explores the interaction of neutrons with matter through cross sections, scattering, absorption, and energy dependencies.

Neutron chain-reacting systems

Explores practical fission fuels, chain reactions, and multiplication factors in nuclear reactors.

Reactor Technology: Reactivity Variations and Control

Explores reactivity variations in reactor technology, covering short-term, medium-term, and long-term effects, means of control, and consequences.

Nuclear Reactivity: Moderation, Enrichment, Absorption

Covers moderation, enrichment, and absorption in nuclear reactivity.

Introduction and Review of Nuclear Physics

Covers the basics of nuclear physics, including reactor physics, neutron interactions, fission, fusion, and radioactivity.

Nuclear Reactor Concepts: Safety and Sustainability

Explores new nuclear reactor concepts for enhanced safety and sustainability, covering topics from Generation-III to Generation-IV and beyond.

Nuclear Reactions: Basics and Applications

Explores nuclear reactions, radioactivity, energy release, and decay heat removal in reactors.

Neutron chain-reacting systems

Explores chain reactions, multiplication factor, fuel cycles, reactor design, and types of nuclear reactors, ending with a summary of key concepts.

Introduction to Nuclear Engineering

Covers the basics of nuclear physics, benefits of nuclear energy, reactor classification, fission reactions, and decay heat removal.

Nuclear Reactions: Synthesis and Applications

Explores artificial nuclear reactions, their applications in various fields, and the effects of radiation on health.

Nuclear Reactor Physics

Covers exercises on nuclear reactor physics, including mass calculations, heat evacuation, radioactive equilibrium, and critical parameters.

Nuclear Physics Basics: Exercise Sessions

Covers exercises on nuclear physics basics, including binding energy, fission reactions, and decay activities.